CN113797369B - Mobile killing system and mobile killing method - Google Patents

Abstract

The invention relates to a mobile killing system, comprising: a sterilizing assembly for generating a sterilizing gas; the gas pressurizing device is arranged in the sterilizing component; the movable operation assembly comprises an operation body and an operation part, the operation body is in sealing connection with the operation part, one end of the operation body is detachably connected with the disinfection assembly, the other end of the operation body is detachably connected with the container, and one end, far away from the sealing connection with the operation body, of the operation part can extend to the container door body; and one end of the gas conveying device is connected with the disinfection assembly, and the other end of the gas conveying device can penetrate through the operation body and is communicated with the inside of the container. The movable disinfection system and the disinfection method can effectively solve the problem that an operator is in direct contact with the inside of a container, the operator is not required to enter the container for direct disinfection, cross contamination is avoided, the disinfection system can be quickly carried or moved at any time, trouble and effort are saved, and the disinfection efficiency is improved.

Description

Mobile killing system and mobile killing method

Technical Field

The invention relates to the technical field of disinfection equipment, in particular to a mobile disinfection system and a mobile disinfection method.

Background

In recent years, new coronaviruses are abused worldwide, and due to the unavoidable passing of people and materials, the situation that the new coronaviruses are detected positive on a transport means occurs, so that epidemic prevention work is still very serious.

At present, the disinfection and sterilization of transport vehicles and transport containers entering the foreign countries can be generally carried out only by spraying disinfectant on the surfaces, and then operators enter the containers to spray the disinfectant. In this way, manual transportation and disinfection are needed, which is time-consuming and labor-consuming. The spraying disinfection can only be applied to the surface of a container and the outer package of an article, the disinfection effect is easy to disappear along with the volatilization of the disinfection solution, the action time is short, and the disinfection time can not be adjusted according to different article characteristics, so that the problems of incomplete disinfection or disinfection dead angles exist. And in the disinfection process, the operation of hands is required, so that the risk of cross infection is increased, and viruses are easily exposed to the external environment.

Disclosure of Invention

Based on the above, it is necessary to provide a mobile disinfection system and a mobile disinfection method for solving the problem that an operator is in direct contact with the inside of a container, so that the operator does not need to enter the container for direct disinfection, cross contamination is avoided, the disinfection system can be quickly carried or moved at any time, trouble and effort are saved, the disinfection efficiency is improved, the disinfection dosage and the action time can be adjusted according to the size of the container and the specific condition of articles in the container, and the disinfection effect is ideal.

A mobile killing system, said mobile killing system comprising: a sterilizing assembly for generating a sterilizing gas; a gas pressurizing device disposed within the sterilization assembly; the movable operation assembly comprises an operation body and an operation part, wherein the operation body is in sealing connection with the operation part, one end of the operation body is detachably connected with the disinfection assembly, the other end of the operation body is detachably connected with the container, and one end, far away from the operation body, of the operation part is in sealing connection with the operation body and can extend to the container door body; and one end of the gas conveying device is connected with the disinfection assembly, and the other end of the gas conveying device can penetrate through the operation body and is communicated with the inside of the container.

A mobile decontamination system of the present application includes a decontamination module, a gas pressurization device, a mobile operation module, and a gas delivery device. Wherein: the sterilization assembly is used for generating sterilization gas, such as ozone and other sterilization active substances; the gas pressurizing device is arranged in the sterilizing component and is used for generating pressure for outputting the generated sterilizing gas outwards, so that the sterilizing gas is guided to rapidly diffuse to the outside of the sterilizing component, and the efficiency of conveying the sterilizing gas outwards is improved; one end of the gas conveying device is connected with the sterilizing component and is used for conveying sterilizing gas generated by the sterilizing component into the container so as to sterilize the interior of the container; the movable sterilizing system further comprises a movable operation assembly, the movable operation assembly is detachably connected with the sterilizing assembly and the container respectively, so that the sterilizing assembly can clean and sterilize different containers, the movable operation performance of the sterilizing assembly is met, one end of the movable operation assembly can be in sealing connection with the container, and an operation part in sealing connection with the movable operation assembly is arranged on an operation body of the movable operation assembly. Above-mentioned design, through sealing connection's operating portion, operating personnel can be under the state of completely keeping apart with the container, carry out opening to the container door body to make the container internal environment carry out effectual isolation with external environment, then gas conveying device pass behind the operating body with the inside intercommunication of container, make sterilizing gas can get into the container inside and carry out the disinfection and kill the processing. The movable disinfection system has the advantages that an operator can disinfect the inside of the container in a state of being completely isolated from the internal environment of the container, the operation is safe and reliable, the health and safety of the operator can be effectively protected, the cross contamination is prevented, the movement of the disinfection assembly can be facilitated, the disinfection of a plurality of containers is realized, the labor intensity is reduced, and the disinfection efficiency is improved.

Alternatively, one end of the gas delivery device may be directly connected to the gas pressurizing device to more directly and efficiently and directionally deliver the sterilizing gas to the interior of the container.

In one embodiment, the sterilization assembly includes a control assembly and a gas generating assembly, the gas pressurizing device is disposed within the gas generating assembly, and the gas generating assembly, the gas delivery device, and the gas pressurizing device are electrically connected to the control assembly.

The movable sterilizing system comprises the control assembly and the gas generating assembly, and is electrically connected with the gas generating assembly, the gas conveying device and the gas pressurizing device through the control assembly, so that automatic and intelligent control of generation, directional conveying and rapid conveying of sterilizing gas is realized, the sterilizing gas is generated and conveyed to the inside of the container under a safe space environment, and the use safety of the movable sterilizing system is improved.

In one embodiment, the gas generating assembly comprises a plurality of gas generating devices connected in series or in parallel.

The movable sterilizing system further comprises a plurality of gas generating devices, wherein the plurality of gas generating devices are connected in series or in parallel and then enter the movable operating assembly, and finally enter the container. The output of the sterilizing gas in the gas generating device and the output efficiency of the sterilizing gas can be controlled by connecting a plurality of gas generating devices in series or in parallel, so that the sterilizing efficiency can be effectively controlled according to actual conditions, and the cost is saved.

In one embodiment, the gas generating device is one of a high voltage discharge type, an ultraviolet irradiation type, or an electrolysis type.

The mobile sterilizing system is characterized in that the gas generating device is one of a high-voltage discharge type, an ultraviolet irradiation type and an electrolysis type. Preferably, the gas generating apparatus uses a high-voltage discharge type apparatus, has a simple structure, and has high sterilizing gas generating efficiency.

The mobile killing system in one embodiment further comprises a vehicle head and a vehicle frame; the headstock comprises a driving device and a traction piece; the frame is connected with the traction piece, the frame is provided with a containing cavity, and the disinfection component is arranged in the containing cavity.

The movable killing system further comprises a vehicle head and a vehicle frame, wherein the vehicle head is used for towing the vehicle frame and moving the movable operation assembly. The disinfection assembly and the movable operation assembly are movable in a way of head traction, so that the disinfection system is movable to conduct disinfection operation on different containers. The structure can ensure the health and safety of operators, and can also ensure the disinfection and sterilization of the interiors of a plurality of containers, and the disinfection efficiency is high and safe. When a plurality of containers need to be disinfected, the disinfection assembly is not required to be carried by an operator, so that the labor intensity can be effectively reduced, and the design structure is simple, easy to operate and convenient to use.

In one embodiment, a vibration-proof rubber pad is arranged between the inner wall of the cavity of the frame and the disinfection assembly.

The vibration-proof rubber cushion is arranged between the inner wall of the cavity of the frame and the disinfection component, so that vibration impact of the disinfection component in the cavity when the frame is driven to move by the vehicle head can be effectively buffered, gas leakage of the disinfection component is prevented, and the use reliability of the mobile disinfection system is improved.

In one embodiment, the movable operation assembly further comprises a sealing assembly and a clamping piece, wherein a plurality of limiting grooves are formed in the clamping piece and are connected with the hinge piece of the container door body in a clamping mode, and the sealing assembly is located between the clamping piece and the side wall of the container.

The movable sterilizing system, the movable operating assembly also comprises a sealing assembly and a clamping piece, wherein the clamping piece is in clamping connection with the hinge piece of the container door body through a limit groove on the clamping piece so as to fix the clamping piece on the outer side wall of the container, the sealing component is arranged between the clamping piece and the outer side wall of the container, and the joint of the movable operation component and the side wall of the container can be in a sealing state by arranging the sealing component, so that the optimal sealing effect of the movable disinfection system is ensured, and the safety performance is improved.

Optionally, the clamping piece is a flexible piece with certain elasticity, so that the sealing component can be conveniently filled in the clamping piece, and the operation is convenient.

Optionally, the sealing assembly comprises a plurality of sealing elements which are arranged in sequence along the connection of the operating assembly and the container. The sealing component is formed by sequentially connecting a plurality of sealing elements, so that the sealing elements are arranged at the connecting positions of the container and the movable operation component, and the sealing tightness is ensured.

In one embodiment, the operation body comprises an operation table, a supporting component and a through limiting piece, one end of the supporting component is detachably connected with the operation table, the other end of the supporting component is detachably connected with the container, the operation table is provided with the operation part and the limiting piece, and the limiting piece can be in sealing connection with the gas conveying device.

The movable disinfection system comprises the operation panel and the supporting component, wherein the operation panel is at least partially made of a flexible material made of a transparent material, so that the operation panel is convenient to observe in the operation process, and the convenience of operation is improved. In addition, the operation body is arranged in a mode that the operation table is detachably connected with the supporting component, so that the operation body is simpler and more convenient to manufacture, the large-scale die is not required to be manufactured, cost saving is facilitated, and the operation body is more convenient to carry and move.

In addition, the operation body is also provided with a through limiting piece which is used for being connected with the gas conveying device in a sealing way, so that the gas conveying device passes through the through limiting piece and extends into the container, and the sterilizing gas generated by the sterilizing component enters the container.

A mobile killing method comprising the steps of:

connecting the mobile operating assembly with the container;

opening the container door body by moving an operation part on the operation assembly;

the gas conveying device passes through the movable operation assembly and the container door body and extends into the container;

starting the disinfection assembly;

and when the disinfection time reaches a preset value, closing the disinfection assembly.

The second aspect of the invention provides a mobile killing method, which comprises the following specific steps: and the movable operation assembly is in sealing connection with the container to be sterilized, then an operator contacts the door body of the container through the operation part on the movable operation assembly and opens the door body, and then the gas conveying device passes through the movable operation assembly and extends to the inside of the container, and simultaneously opens the sterilizing assembly to convey sterilizing gas to the inside of the container for sterilization, and after reaching the preset sterilizing time, the sterilizing assembly is closed to stop conveying the sterilizing gas to the inside of the container.

According to the movable disinfection method, an operator can disinfect and sterilize the interior of the container in a state of being completely isolated from the interior of the container, so that the risk of cross contamination can be prevented, the safety is good, the protection performance is good, the automation degree is high, the labor intensity can be effectively reduced, and the disinfection efficiency is improved.

In one embodiment, prior to activating the sterilization assembly, the steps of:

detecting the connection state of the mobile operation assembly and the container;

detecting the opening and closing state of a door body at the joint of the container and the movable operation assembly;

and when the movable operation assembly is in a connected and sealed state with the container and the door body at the joint of the container and the movable operation assembly is in an open state, starting the disinfection assembly.

According to the mobile killing method, whether the mobile killing system is normally connected with the container and is strictly sealed can be judged by detecting the connection state and the sealing state of the mobile operation assembly and the container, so that the isolation between the inside of the container and the outside is guaranteed, and the safety of the killing operation is improved. When it is detected that the mobile operating assembly has been tightly sealed with the container and the door at the connection of the container with the mobile sanitizing system has been opened, the sanitizing assembly is activated to create sanitizing actives to sanitize the interior of the container. The movable sterilizing method can ensure that operators can avoid contacting with the inside of the container when sterilizing the inside of the container, thereby ensuring the health and safety of the operators.

In one embodiment, after activating the sterilization assembly, the method further comprises the steps of:

when the mobile operation assembly is in a separation state with the container; or (b)

When the sealing state of the movable operation assembly and the container is broken; or (b)

When the door body at the joint of the container and the movable operation assembly is in a closed state,

activating an alarm and/or turning off the sterilization assembly.

The mobile disinfection method described above, after the disinfection assembly is activated, further comprises: when the movable operation assembly is in a separation state with the container, or the sealing state between the movable operation assembly and the container is broken, or the door body at the joint of the container and the movable operation assembly is in a closed state, an alarm prompt is started, and/or the disinfection assembly is closed. Under the condition, the sealing state between the container and the movable sterilizing system is broken, so that an operator can be prompted to repair the sealing environment as soon as possible by starting the alarm system, or the sterilizing component is controlled to be closed, so that leakage of sterilizing active substances is prevented or the internal environment of the container is exposed to the external environment. The operation can improve the use safety of the disinfection and sterilization process of the mobile disinfection and sterilization system and improve the overall safety performance.

Drawings

FIG. 1 is a schematic diagram of a mobile killing system according to one embodiment of the present invention;

FIG. 2 is a second schematic diagram of a mobile killing system according to one embodiment of the present invention;

fig. 3 is a schematic structural view of a mobile killing system according to another embodiment of the present invention;

FIG. 4 is a schematic view of the overall structure of the mobile operating assembly according to the present invention;

FIG. 5 is a schematic view of a structure of a clamping member according to the present invention;

fig. 6 is a flowchart illustrating the operation of the mobile killing method according to the present invention.

Wherein, the correspondence between the reference numerals and the component names is:

100 a sterilization assembly, 110 a control assembly, 120 a gas generation assembly;

200 moving the operating assembly, 210 operating the body, 2101 operating table, 2102 supporting assembly, 2103 limiting piece, 220 operating part, 230 sealing assembly, 240 clamping piece, 2401 limiting groove;

300 gas delivery means;

400 headstock;

500 frames, 501 accommodating cavities;

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

The mobile killing system and the mobile killing method according to some embodiments of the present invention are described below with reference to the accompanying drawings.

As shown in fig. 1, 2 and 4, the present embodiment discloses a mobile killing system, which includes: a sterilizing assembly 100, the sterilizing assembly 100 for generating a sterilizing gas; a gas pressurizing device disposed within the sterilization assembly 100; the movable operation assembly 200, the movable operation assembly 200 comprises an operation body 210 and an operation part 220, the operation body 210 is in sealing connection with the operation part 220, one end of the operation body 210 is detachably connected with the disinfection assembly 100, the other end is detachably connected with the container, and one end, far away from the sealing connection with the operation body 210, of the operation part 220 can extend to the container door body; and a gas delivery device 300, wherein one end of the gas delivery device 300 is connected to the sterilizing module 100, and the other end thereof can pass through the operation body 210 and communicate with the inside of the container.

A mobile decontamination system of the present application includes a decontamination module 100, a gas pressurization device, a mobile operation module 200, and a gas delivery device 300. Wherein: the sterilization assembly 100 is used to generate a sterilization gas, such as a sterilization active, e.g., ozone; the gas pressurizing device is arranged in the disinfection assembly 100 and is used for generating pressure for outputting the generated disinfection gas outwards, so that the disinfection gas is guided to rapidly diffuse to the outside of the disinfection assembly 100, and the efficiency of conveying the disinfection gas outwards is improved; one end of the gas conveying device 300 is connected with the sterilizing assembly 100 and is used for conveying sterilizing gas generated by the sterilizing assembly 100 into the container so as to sterilize the interior of the container; the movable sterilizing system further comprises a movable operation assembly 200, the movable operation assembly 200 is detachably connected with the sterilizing assembly 100 and the container respectively, so that the sterilizing assembly 100 can clean and sterilize different containers, the movable operation performance of the sterilizing assembly is met, one end of the movable operation assembly 200 can be in sealing connection with the container, and an operation part 220 in sealing connection with the operation body 210 of the movable operation assembly 200 is arranged on the operation body 210. Through the above design, through the operation part 220 of the sealing connection, an operator can open the container door body in a state of being completely isolated from the container, effectively isolate the internal environment of the container from the external environment, and then the gas conveying device 300 is communicated with the interior of the container after passing through the operation body 210, so that the sterilizing gas can enter the interior of the container for sterilization. The movable disinfection system can disinfect the inside of the container when an operator is completely isolated from the internal environment of the container, is safe and reliable to operate, can effectively protect the health and safety of the operator, prevents the cross contamination, and can facilitate the movement of the disinfection assembly 100 to disinfect a plurality of containers, thereby reducing the labor intensity and improving the disinfection efficiency.

Alternatively, one end of the gas delivery device 300 may be directly connected to a gas pressurizing device to more directly and efficiently and directionally deliver sterilizing gas to the interior of the container.

As shown in fig. 2, this embodiment further defines, in addition to the features of the above-described embodiment: the sterilization assembly 100 includes a control assembly 110 and a gas-generating assembly 120, a gas pressurizing device is disposed within the gas-generating assembly 120, and the gas-generating assembly 120, the gas delivery device 300, and the gas pressurizing device are electrically connected to the control assembly 110.

The movable sterilizing system 100 comprises the control assembly 110 and the gas generating assembly 120, and the control assembly 110 is electrically connected with the gas generating assembly 120, the gas conveying device 300 and the gas pressurizing device to realize automatic and intelligent control of generation, directional conveying and rapid conveying of sterilizing gas, so that the sterilizing gas is generated and conveyed to the inside of the container in a safe space environment, and the use safety of the movable sterilizing system is improved.

As shown in fig. 1 and 2, further, in the present embodiment, the gas generating assembly 120 includes a plurality of gas generating devices connected in series or in parallel.

In the above mobile disinfection system, the gas generating assembly 120 further includes a plurality of gas generating devices, and the plurality of gas generating devices are connected in series or parallel and then enter the mobile operation assembly 200, and finally enter the container. The output of the sterilizing gas in the gas generating device and the output efficiency of the sterilizing gas can be controlled by connecting a plurality of gas generating devices in series or in parallel, so that the sterilizing efficiency can be effectively controlled according to actual conditions, and the cost is saved.

In this embodiment, the gas generating device is one of a high-voltage discharge type, an ultraviolet irradiation type, or an electrolysis type.

The mobile sterilizing system is characterized in that the gas generating device is one of a high-voltage discharge type, an ultraviolet irradiation type and an electrolysis type. Preferably, the gas generating apparatus uses a high-voltage discharge type apparatus, has a simple structure, and has high sterilizing gas generating efficiency.

As shown in fig. 3, the mobile killing system in the present embodiment further includes a vehicle head 400 and a vehicle frame 500; the headstock 400 includes a driving device and a traction member; the frame 500 is connected to the traction member, the frame 500 is provided with a cavity 501, and the sterilization assembly 100 is arranged in the cavity 501.

The mobile killing system further comprises a vehicle head 400 and a vehicle frame 500, wherein the vehicle head 400 is used for towing the vehicle frame 500 and moving the operation assembly 200. The disinfection assembly and the movable operation assembly are movable in a way of head traction, so that the disinfection system is movable to conduct disinfection operation on different containers. The structure can ensure the health and safety of operators, and can also ensure the disinfection and sterilization of the interiors of a plurality of containers, and the disinfection efficiency is high and safe. When a plurality of containers need to be disinfected, the disinfection assembly is not required to be carried by an operator, so that the labor intensity can be effectively reduced, and the design structure is simple, easy to operate and convenient to use.

In this embodiment, a vibration-proof rubber pad is disposed between the inner wall of the cavity 501 of the frame 500 and the sterilization assembly 100.

The vibration-proof rubber pad is arranged between the inner wall of the containing cavity 501 of the vehicle frame 500 and the disinfection assembly 100, so that vibration impact of the disinfection assembly 100 in the containing cavity 501 when the vehicle head drives the vehicle frame to move can be effectively buffered, gas leakage of the disinfection assembly 100 is prevented, and the use reliability of the mobile disinfection system is improved.

As shown in fig. 2 and 5, in the present embodiment, the mobile operation assembly 200 further includes a sealing assembly 230 and a clamping member 240, a plurality of limiting grooves 2401 are disposed on the clamping member 240, the plurality of limiting grooves 2401 are connected with the hinge member of the container door in a clamping manner, and the sealing assembly 230 is located between the clamping member 240 and the side wall of the container.

The movable sterilizing system comprises the movable operating assembly 200, the sealing assembly 230 and the clamping piece 240, wherein the clamping piece 240 is connected with the hinge piece of the container door body through the limiting groove 2401 on the clamping piece 240 in a clamping manner, so that the clamping piece 240 is fixed on the outer side wall of the container, the sealing assembly 230 is arranged between the clamping piece 240 and the outer side wall of the container, and the joint of the movable operating assembly 200 and the side wall of the container can be in a sealing state by arranging the sealing assembly 230, so that the optimal sealing effect of the movable sterilizing system is ensured, and the safety performance is improved.

Optionally, the clamping member 240 is a flexible member with a certain elasticity, so that the sealing assembly 230 can be conveniently filled in the clamping member, and the operation is convenient.

Optionally, the seal assembly 230 includes a plurality of seals that are disposed in sequence along the connection of the handling assembly 200 to the container.

The movable sterilizing system has the advantages that the sealing component 230 is formed by sequentially connecting a plurality of sealing elements, so that the sealing elements are arranged at the connecting positions of the container and the movable operating component, and the sealing tightness is ensured.

As shown in fig. 4, in the present embodiment, the operation body 210 includes an operation table 2101, a supporting assembly 2102 and a penetrating stopper 2103, one end of the supporting assembly 2102 is detachably connected to the operation table 2101, the other end is detachably connected to the container, the operation table 2101 is provided with an operation portion 220 and the stopper 2103, and the stopper 2103 can be hermetically connected to the gas conveying device 300.

In the mobile killing system, the operation body 210 includes the operation table 2101 and the supporting component 2102, wherein the operation table 2101 is at least partially made of a flexible material of a transparent material, so that the operation is convenient to observe in the operation process, and the convenience of the operation is improved. In addition, the operation body 210 is configured in such a way that the operation table 2101 is detachably connected with the supporting component 2102, so that the operation body 210 can be manufactured more simply and conveniently without being realized in a mode of manufacturing a large-sized die, which is beneficial to saving cost and is more convenient for carrying and moving the operation body 210.

In addition, the operation body 210 is further provided with a through limiting member 2103, and the limiting member 2103 is used for being in sealing connection with the gas conveying device 300, so that the gas conveying device passes through the through limiting member 2103 and extends into the container, and the sterilizing gas generated by the sterilizing assembly 100 enters the container.

A mobile killing method, as shown in fig. 6, comprises the following steps:

s1, connecting a mobile operation assembly with a container;

s2, opening a container door body through an operation part on the mobile operation assembly;

s3, enabling the gas conveying device to penetrate through the movable operation assembly and the container door body and extend into the container;

s4, starting a disinfection assembly;

s5, closing the disinfection assembly when the disinfection time reaches a preset value.

The second aspect of the invention provides a mobile killing method, which comprises the following specific steps: and the movable operation assembly is in sealing connection with the container to be sterilized, then an operator contacts the door body of the container through the operation part on the movable operation assembly and opens the door body, and then the gas conveying device passes through the movable operation assembly and extends to the inside of the container, and simultaneously opens the sterilizing assembly to convey sterilizing gas to the inside of the container for sterilization, and after reaching the preset sterilizing time, the sterilizing assembly is closed to stop conveying the sterilizing gas to the inside of the container.

According to the movable disinfection method, an operator can disinfect and sterilize the interior of the container in a state of being completely isolated from the interior of the container, so that the risk of cross contamination can be prevented, the safety is good, the protection performance is good, the automation degree is high, the labor intensity can be effectively reduced, and the disinfection efficiency is improved.

Optionally, before activating the sterilization assembly, the method further comprises the steps of:

detecting the connection state of the mobile operation assembly and the container;

detecting the opening and closing state of a door body at the joint of the container and the mobile operation assembly;

when the movable operation assembly is in a connected and sealed state with the container, and the door body at the joint of the container and the movable operation assembly is in an open state, the disinfection assembly is started.

According to the mobile killing method, whether the mobile killing system is normally connected with the container and is strictly sealed can be judged by detecting the connection state and the sealing state of the mobile operation assembly and the container, so that the isolation between the inside of the container and the outside is guaranteed, and the safety of the killing operation is improved. When it is detected that the mobile operating assembly has been tightly sealed with the container and the door at the connection of the container with the mobile sanitizing system has been opened, the sanitizing assembly is activated to create sanitizing actives to sanitize the interior of the container. The movable sterilizing method can ensure that operators can avoid contacting with the inside of the container when sterilizing the inside of the container, thereby ensuring the health and safety of the operators.

Optionally, after activating the sterilization assembly, the steps of:

when the mobile operation assembly is in a separation state with the container; or (b)

When the sealing state of the movable operation assembly and the container is broken; or (b)

When the door body at the joint of the container and the movable operation assembly is in a closed state,

an alarm is activated and/or the sterilization assembly is turned off.

The mobile disinfection method described above, after the disinfection assembly is activated, further comprises: when the movable operation assembly is in a separation state with the container, or the sealing state between the movable operation assembly and the container is broken, or the door body at the joint of the container and the movable operation assembly is in a closed state, an alarm prompt is started, and/or the disinfection assembly is closed. Under the condition, the sealing state between the container and the movable sterilizing system is broken, so that an operator can be prompted to repair the sealing environment as soon as possible by starting the alarm system, or the sterilizing component is controlled to be closed, so that leakage of sterilizing active substances is prevented or the internal environment of the container is exposed to the external environment. The operation can improve the use safety of the disinfection and sterilization process of the mobile disinfection and sterilization system and improve the overall safety performance.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A mobile killing system, said mobile killing system comprising:

-a sterilizing assembly (100), the sterilizing assembly (100) being adapted to generate a sterilizing gas;

a gas pressurizing device disposed within the sterilization assembly (100);

the movable operation assembly (200), the movable operation assembly (200) comprises an operation body (210) and an operation part (220), the operation body (210) is in sealing connection with the operation part (220), one end of the operation body (210) is detachably connected with the disinfection assembly (100), the other end of the operation body is detachably connected with a container, one end, far away from the end, of the operation part (220) which is in sealing connection with the operation body (210) can extend to a container door body, and the container door body can be opened by moving the operation part (220);

and a gas delivery device (300), wherein one end of the gas delivery device (300) is connected with the disinfection assembly (100), and the other end of the gas delivery device can pass through the operation body (210) and be communicated with the interior of the container.

2. The mobile sanitizing system of claim 1, wherein the sanitizing assembly (100) comprises a control assembly (110) and a gas generating assembly (120), the gas pressurizing device is disposed within the gas generating assembly (120), and the gas generating assembly (120), the gas delivery device (300), and the gas pressurizing device are electrically connected to the control assembly (110).

3. The mobile disinfection system of claim 2, wherein said gas generating assembly (120) comprises a plurality of gas generating devices connected in series or in parallel.

4. A mobile sanitizing system as set forth in claim 3 wherein said gas generating means is one of a high voltage discharge type, an ultraviolet irradiation type or an electrolysis type.

5. The mobile suicide system of claim 1 further comprising a vehicle head (400) and a vehicle frame (500);

the headstock (400) comprises a driving device and a traction member;

the frame (500) is connected with the traction piece, the frame (500) is provided with a containing cavity (501), and the disinfection assembly (100) is arranged in the containing cavity (501).

6. The mobile disinfection system of claim 5 wherein a vibration-proof rubber pad is provided between the inner wall of the cavity (501) of the frame (500) and the disinfection assembly (100).

7. The mobile decontamination system of claim 1, wherein the mobile operating assembly (200) further comprises a sealing assembly (230) and a clamping member (240), wherein the clamping member (240) is provided with a plurality of limiting grooves (2401), the plurality of limiting grooves (2401) are in snap connection with the container door hinge, and the sealing assembly (230) is located between the clamping member (240) and the container side wall.

8. The mobile decontamination system according to claim 1, wherein the operation body (210) comprises an operation table (2101), a supporting component (2102) and a through limiting component (2103), one end of the supporting component (2102) is detachably connected with the operation table (2101), the other end of the supporting component is detachably connected with a container, the operation table (2101) is provided with the operation part (220) and the limiting component (2103), and the limiting component (2103) can be in sealing connection with the gas conveying device (300).

9. A mobile killing method, comprising the steps of:

connecting the mobile operating assembly with the container;

opening the container door body by moving an operation part on the operation assembly;

passing the gas delivery device through the mobile operating assembly and the container door body and extending into the container;

starting the disinfection assembly;

and when the disinfection time reaches a preset value, closing the disinfection assembly.

10. The mobile sanitizing method of claim 9, further comprising the step of, prior to activating the sanitizing assembly:

detecting the connection state of the mobile operation assembly and the container;

detecting the opening and closing state of a door body at the joint of the container and the movable operation assembly;

when the movable operation assembly is in a connected and sealed state with the container, and the door body at the joint of the container and the movable operation assembly is in an open state, starting the disinfection assembly; and/or

After activating the sterilization assembly, further comprising the steps of:

when the mobile operation assembly is in a separation state with the container; or (b)

When the sealing state of the movable operation assembly and the container is broken; or (b)

When the door body at the joint of the container and the movable operation assembly is in a closed state, the alarm is started and/or the disinfection assembly is closed.

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