Control method for decontamination system, decontamination system, storage medium, and processor

By setting up a circulating pump and control valve in the decontamination system, the cleaning medium is circulated, heated, and mixed, solving the problem of discontinuous decontamination in the existing technology, achieving constant temperature decontamination, improving efficiency and effectiveness, and realizing wastewater recycling.

CN117605957BActive Publication Date: 2026-06-19CHANGSHA ZOOMLION FIRE FIGHTING VEHICLE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
CHANGSHA ZOOMLION FIRE FIGHTING VEHICLE
Filing Date
2023-11-17
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing decontamination systems cannot maintain a constant temperature during decontamination, resulting in discontinuous decontamination, long processing time, and unsatisfactory decontamination results.

Method used

By setting up a first containment device, a second containment device, a heating device, and a decontamination area in the decontamination system, and using a circulating pump and control valve to achieve circulating heating and mixing of the cleaning medium, a constant temperature decontamination effect is ensured.

Benefits of technology

It achieves constant temperature disinfection, improves disinfection efficiency, ensures the continuity and high efficiency of disinfection effect, has greater adaptability, is more convenient to operate, and realizes the recycling of disinfection wastewater, which is beneficial to environmental protection.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This application provides a control method, a decontamination system, a storage medium, and a processor for a decontamination system. The method includes: receiving a mode control command after the decontamination system is started; controlling the flow of cleaning medium from a first receiving device into a second receiving device based on the mode control command; controlling the start of a circulation pump and opening the second outlet 2B, the second inlet 1C, the third outlet 2C, and the third inlet 3B; controlling the flow of cleaning medium from the second receiving device into a heating device for heating to obtain a first target cleaning medium; controlling the flow of the first target cleaning medium into the second receiving device; and controlling the opening of a fourth outlet 4B to allow the first target cleaning medium to flow out from the fourth outlet 4B and into the decontamination area through a pipeline to clean the objects to be cleaned in the decontamination area, thereby achieving constant temperature decontamination, improving decontamination efficiency, and resulting in better decontamination effects.
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Description

Technical Field

[0001] This application relates to the field of decontamination control technology, specifically to a control method, decontamination system, storage medium, and processor for a decontamination system. Background Technology

[0002] Decontamination systems are crucial for responding to accidents such as special fires, chemical leaks, and natural disasters. If an accident occurs and cannot be controlled in a timely manner, it can cause incalculable harm to the surrounding environment and people. Therefore, to avoid or mitigate the harm caused to the surrounding environment and people by toxic agents, radioactive materials, biological reagents, or polluting gases and dust, it is necessary to promptly decontaminate contaminated personnel, equipment, items, and accident sites.

[0003] However, existing decontamination systems typically control the water tank to inject a certain amount of clean water into the decontamination machine, which then heats the water for a period of time before using that hot water for decontamination. This results in a situation where, after the hot water runs out, new hot water cannot be replenished in time for decontamination, leading to discontinuous decontamination, long processing times, and unsatisfactory decontamination results. Summary of the Invention

[0004] The purpose of this application is to provide a control method, a decontamination system, a storage medium, and a processor for a decontamination system, in order to solve the problem that the existing technology cannot maintain a constant temperature for decontamination.

[0005] To achieve the above objectives, the first aspect of this application provides a control method for a decontamination system. The decontamination system includes a first containing device, a second containing device, a heating device, and a decontamination area for cleaning objects to be cleaned. The first outlet 1A of the first containing device is connected to the first inlet 1B of the second containing device via a pipe. The second outlet 2B of the second containing device is connected to the second inlet 1C of the heating device via a pipe, and a circulation pump is installed on the pipe between the second outlet 2B and the second inlet 1C. The third outlet 2C of the heating device is connected to the third inlet 3B of the second containing device via a pipe. The decontamination area is connected to the fourth outlet 4B of the second containing device via a pipe. The control method includes:

[0006] After the decontamination system is started, receive mode control commands for the decontamination system;

[0007] Based on the mode control command, the cleaning medium in the first containing device is controlled to flow out from the first outlet 1A and flow into the second containing device from the first inlet 1B.

[0008] Control the circulation pump to start, and control the second outlet 2B, the second inlet 1C, the third outlet 2C and the third inlet 3B to open;

[0009] The cleaning medium in the second receiving device is controlled to flow out from the second outlet 2B and flow into the heating device through the second inlet 1C for heating, so as to obtain the first target cleaning medium;

[0010] The first target cleaning medium is controlled to flow out from the third outlet 2C and flow into the second container through the third inlet 3B;

[0011] The fourth outlet 4B is opened to allow the first target cleaning medium to flow out from the fourth outlet 4B and into the decontamination site through the pipeline to clean the objects to be cleaned in the decontamination site.

[0012] In this embodiment, the first outlet 1A and the fourth outlet 4B are connected by a pipeline, and a control valve is installed on the pipeline. The control method further includes: after cleaning the object to be cleaned in the decontamination area, receiving a mode switching command for the decontamination system; when the mode switching command is the first command, controlling the control valve to open so that the cleaning medium flows out from the first outlet 1A and mixes with the first target cleaning medium flowing out from the fourth outlet 4B through the control valve to obtain the second target cleaning medium, wherein the temperature of the first target cleaning medium is higher than the temperature of the second target cleaning medium; controlling the second target cleaning medium to flow into the decontamination area through the pipeline to clean the object to be cleaned.

[0013] In this embodiment of the application, the control method further includes: when the mode switching command is the second command, controlling the fourth outlet 4B and the third outlet 2C to close so that the first target cleaning medium stops flowing into the decontamination site; controlling the control valve to open so that the cleaning medium flows out from the first outlet 1A and flows into the decontamination site through the pipeline to clean the object to be cleaned.

[0014] In this embodiment, the mode control command is a first mode control command. The fourth outlet 4B is connected to the fourth inlet 1D of the third containing device for containing the decontamination agent through a pipeline. The fifth outlet 2D of the third containing device is connected to the decontamination site through a first pipeline. The control method further includes: after the first target cleaning medium flows out from the fourth outlet 4B, controlling the first target cleaning medium to flow into the third containing device from the fourth inlet 1D, so that the first target cleaning medium and the decontamination agent are mixed in a preset ratio to obtain the third target cleaning medium; controlling the third target cleaning medium to flow out from the fifth outlet 2D and flow into the decontamination site through the first pipeline to clean the object to be cleaned.

[0015] In this embodiment, the mode control command is a second mode control command. The fourth outlet 4B is connected to the decontamination site through a second pipe. The control method further includes: after the first target cleaning medium flows out from the fourth outlet 4B, controlling the first target cleaning medium to flow into the first decontamination channel included in the decontamination site through the second pipe; controlling the third target cleaning medium to flow out from the fifth outlet 2D and flow into the second decontamination channel included in the decontamination site through the first pipe; and cleaning the object to be cleaned by the first target cleaning medium in the first decontamination channel and the third target cleaning medium in the second decontamination channel.

[0016] In this embodiment, the decontamination system further includes a booster pump and a fourth containment device containing a decontamination agent. The booster pump is installed on a pipeline between the fourth outlet 4B and the fourth inlet 1D. The fourth containment device is connected to the third containment device via a pipeline. The control method further includes: controlling the booster pump to start so that the pressure of the first target cleaning medium meets a preset pressure value; controlling the first target cleaning medium meeting the preset pressure value to flow from the fourth inlet 1D into the third containment device; and controlling the decontamination agent in the fourth containment device to flow into the third containment device through a pipeline based on the pressure difference between the first target cleaning medium and the decontamination agent in the fourth containment device, so that the first target cleaning medium and the decontamination agent are mixed in the third containment device.

[0017] In this embodiment of the application, the decontamination system further includes a fifth receiving device. The sixth outlet 1E of the decontamination site and the fifth inlet 1F of the fifth receiving device are connected by a pipeline. The control method further includes controlling the decontamination liquid after cleaning the object to be cleaned to flow out from the sixth outlet 1E and into the fifth receiving device through the fifth inlet 1F.

[0018] A second aspect of this application provides a processor configured to perform the control method described above for a decontamination system.

[0019] A third aspect of this application provides a decontamination system, comprising:

[0020] The first container is connected to the first outlet 1A of the first container and the first inlet 1B of the second container via a pipe.

[0021] The second container is connected to the second water outlet 2B of the second container via a pipe;

[0022] A circulation pump is installed on the pipeline between the second outlet 2B and the second inlet 1C.

[0023] The heating device has its third outlet 2C connected to the third inlet 3B of the second receiving device via a pipe.

[0024] The decontamination area is used for cleaning the objects to be cleaned, and the decontamination area is connected to the fourth outlet 4B of the second containment device via a pipe; and

[0025] The aforementioned processor.

[0026] A fourth aspect of this application provides a machine-readable storage medium storing instructions that, when executed by a processor, configure the processor to perform the aforementioned control method for a decontamination system.

[0027] The above technical solution involves receiving a mode control command for the decontamination system after its startup; and, based on the mode control command, controlling the cleaning medium in the first receiving device to flow out from the first outlet 1A and into the second receiving device through the first inlet 1B. After the cleaning medium flows into the second receiving device, controlling the circulation pump to start, and controlling the opening of the second outlet 2B, the second inlet 1C, the third outlet 2C, and the third inlet 3B to open the circulation pipe between the second receiving device and the heating device. Controlling the cleaning medium in the second receiving device to flow out from the second outlet 2B and into the heating device through the second inlet 1C for heating to obtain the first target cleaning medium. Controlling the first target cleaning medium to flow out from the third outlet 2C and into the second receiving device through the third inlet 3B to achieve circulating heating of the cleaning medium. The fourth outlet 4B is opened to allow the first target cleaning medium to flow out from the fourth outlet 4B and into the decontamination site through the pipeline to clean the objects to be cleaned in the decontamination site, thereby achieving constant temperature decontamination, improving decontamination efficiency, and making the decontamination effect better.

[0028] Other features and advantages of the embodiments of this application will be described in detail in the following detailed description section. Attached Figure Description

[0029] The accompanying drawings are provided to further illustrate the embodiments of this application and form part of the specification. They are used together with the following detailed description to explain the embodiments of this application, but do not constitute a limitation on the embodiments of this application. In the drawings:

[0030] Figure 1 This schematic diagram illustrates a structural block diagram of a decontamination system according to an embodiment of this application;

[0031] Figure 2 The illustration shows a schematic flow diagram of a control method for a decontamination system according to an embodiment of this application;

[0032] Figure 3 The diagram illustrates the internal structure of a computer device according to an embodiment of this application.

[0033] Explanation of reference numerals in the attached figures

[0034] 1. First receiving device; 2. Pipeline; 3. Control ball valve;

[0035] 4. Inlet pump; 5. Control valve; 6. Piping;

[0036] 7. Control switch; 8. Second receiving device; 9. Pipeline;

[0037] 10. Heating device; 11. Hot water boiler control panel; 12. Circulating pump;

[0038] 13. Pipeline; 14. Pipeline; 15. Control ball valve;

[0039] 16. Control ball valve; 17. Booster pump; 18. Fourth containment device;

[0040] 19. Pipeline; 20. Control ball valve; 21. Pipeline;

[0041] 22. Third containing device; 23. Fifth containing device; 24. Clear water outlet valve;

[0042] 25. Mixture outlet valve; 26. Pipeline; 27. Sewage pump;

[0043] 28. Pipeline; 29. ​​Pipeline; 30. First decontamination passage;

[0044] 31. First decontamination channel; 32. Decontamination area; 33. Second decontamination channel;

[0045] 34. Pipeline; 35. Pipeline; 36. Clean water outlet valve;

[0046] 37. Mixed liquid outlet valve; 1A. First outlet; 1B. First inlet;

[0047] 2B, Second outlet; 3B, Third inlet; 4B, Fourth outlet;

[0048] 1C, Third water inlet; 2C, Third water outlet; 1D, Fourth water inlet;

[0049] 2D, Fifth outlet; 1E, Sixth outlet; 1F, Fifth inlet. Detailed Implementation

[0050] To make the objectives, technical solutions, and advantages of the embodiments of this application clearer, the technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are only for illustration and explanation of the embodiments of this application and are not intended to limit the embodiments of this application. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the scope of protection of this application.

[0051] It should be noted that if the embodiments of this application involve directional indicators (such as up, down, left, right, front, back, etc.), the directional indicators are only used to explain the relative positional relationship and movement of the components in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicators will also change accordingly.

[0052] Furthermore, if the embodiments of this application involve descriptions such as "first" or "second," these descriptions are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, features defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the technical solutions of various embodiments can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. If the combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed in this application.

[0053] Figure 1 A schematic block diagram of a decontamination system according to an embodiment of this application is shown. Figure 1 As shown in the figure, this application provides a decontamination system, including:

[0054] The first receiving device 1, the first outlet 1A of the first receiving device 1 and the first inlet 1B of the second receiving device 8 are connected by a pipe 2.

[0055] The second container 8 has its second outlet 2B connected to the second inlet 1C of the heating device 10 via a pipe 9.

[0056] A circulation pump 12 is installed on a pipe 9 between the second outlet 2B and the second inlet 1C to circulate the cleaning medium between the second container 8 and the heating device 10. The cleaning medium flows out from the first outlet 1A and flows into the second container 8 through the first inlet 1B.

[0057] The heating device 10 has its third outlet 2C connected to the third inlet 3B of the second receiving device 8 via a pipe 9. It is used to heat the cleaning medium to obtain the first target cleaning medium.

[0058] The decontamination area 32 is connected to the fourth outlet 4B of the second receiving device 8 via a pipe 13, and is used to control the first target cleaning medium flowing out from the fourth outlet 4B to clean the object to be cleaned.

[0059] The decontamination system includes a first containment device 1, a second containment device 8, a heating device 10, a circulating pump 12, and a decontamination area 32. The first containment device 1 includes a first outlet 1A. The second containment device 8 includes a first inlet 1B, a second outlet 2B, a third inlet 3B, and a fourth outlet 4B. The heating device 10 includes a second inlet 1C and a third outlet 2C. The first outlet 1A of the first device 1 is connected to the first inlet 1B of the second device 8 via a pipe 2. The second outlet 2B of the second containment device 8 is connected to the second inlet 1C of the heating device 10 via a pipe 9, and the third outlet 2C of the heating device 10 is connected to the third inlet 3B of the second containment device 8 via a pipe 9. The circulating pump 12 is installed on the pipe 9 between the second outlet 2B and the second inlet 1C. The decontamination area 32 is connected to the fourth outlet 4B of the second containment device. The cleaning medium flows from the first receiving device 1 into the second receiving device 8 through the pipe 2, and is circulated and heated between the second receiving device 8 and the heating device 10 through the circulating pump 12 and the pipe 9 to obtain the first target cleaning medium. The first target cleaning medium is controlled to flow from the second receiving device 8 into the cleaning site 32 through the pipe 13 to clean the object to be cleaned.

[0060] For example, the first containing device 1 can be a clean water tank, the second containing device 8 can be a hot water tank, the heating device 10 can be a hot water boiler, and the decontamination area 32 can be a mobile multi-person decontamination tent. A control ball valve 3 and an inlet pump 4 can be installed on the pipe 2. The hot water boiler can include a hot water boiler control panel 11. The mobile multi-person decontamination tent can include pipes 29 and 34.

[0061] The clean water tank can be filled with cleaning medium. The control ball valve 2 and the inlet pump 4 are activated, allowing the cleaning medium to flow from the first outlet 1A of the clean water tank, through pipe 2, and into the hot water tank through the first inlet 1B. The hot water boiler is started, and the water is heated to the preset temperature via the hot water boiler control panel 11. The circulation pump 12 is started, allowing the cleaning medium in the hot water tank to flow from the second outlet 2B, through the second inlet 1C, and into the hot water boiler for heating to obtain the first target cleaning medium. Under the action of the circulation pump 12, the first target cleaning medium flows out from the third outlet 2C, through pipe 9, and into the hot water tank through the third inlet 3B. It also flows out from the fourth outlet 4B, through pipe 13 to pipes 29 and 34 respectively, and then into the mobile multi-person decontamination tent to clean the object to be cleaned.

[0062] In this embodiment of the application, it further includes: a control valve, which is installed on the pipeline between the first outlet 1A and the fourth outlet 4B, for controlling the cleaning medium in the first receiving device to flow out from the first outlet 1A and mix with the first target cleaning medium flowing out from the fourth outlet 4B to obtain the second target cleaning medium.

[0063] like Figure 1 As shown, the decontamination system also includes a control valve 5. The control valve 5 can be a control ball valve. The control valve 5 is installed on the pipe 6 between the first outlet 1A and the fourth outlet 4B. The control valve 5 can be used to control the flow of the cleaning medium from the first receiving device 1 from the first outlet 1A. After passing through the pipe 6, it mixes with the first target cleaning medium flowing from the fourth outlet 4B on the pipe 13 to obtain the second target cleaning medium.

[0064] In this embodiment, it further includes: a third containing device, wherein the fourth inlet 1D and the fourth outlet 4B of the third containing device are connected by a pipe to contain the decontamination agent, and the third target cleaning medium obtained by mixing the first target cleaning medium flowing into the third containing device through the fourth inlet 1D with the decontamination agent.

[0065] like Figure 1 As shown, the decontamination system also includes a third containing device 22. The third containing device 22 can be a mixing tank. The fourth inlet 1D of the third containing device 22 is connected to the fourth outlet 4B of the second containing device 8 via pipes 13 and 21. The third containing device 22 can contain the decontamination agent and the third target cleaning medium obtained by mixing the first target cleaning medium flowing into the third containing device 22 through the fourth outlet 1D with the decontamination agent.

[0066] In this embodiment of the application, the fifth outlet 2D of the third receiving device is connected to the decontamination site through a first pipe, so that the third target cleaning medium flows out from the fifth outlet 2D and flows into the decontamination site through the first pipe.

[0067] like Figure 1 As shown, the fifth outlet 2D of the third receiving device 22 is connected to the decontamination site 32 through the first pipe, namely pipe 28 and pipe 35, so that the third target cleaning medium flows out from the fifth outlet 2D and flows into the decontamination site 32 through pipe 28 and pipe 35.

[0068] In this embodiment, the fourth outlet 4B is connected to the decontamination site via a second pipe, so that the first target cleaning medium flows out from the fourth outlet 4B and into the decontamination site through the second pipe.

[0069] like Figure 1 As shown, the fourth outlet 4B is connected to the decontamination site 32 via a second pipe, specifically pipe 29 and pipe 34. This allows the first target cleaning medium to flow out from the fourth outlet 4B and into the decontamination site 32 via pipe 29 and pipe 34.

[0070] In this embodiment of the application, the decontamination site includes a first decontamination channel and a second decontamination channel. The first decontamination channel is connected to the fifth outlet 2D of the third containing device through a first pipe and is used to contain the third target cleaning medium. The second decontamination channel is connected to the fourth outlet 4B through a second pipe and is used to contain the first target cleaning medium.

[0071] like Figure 1 As shown, the decontamination area 32 includes first decontamination channels 30 and 31, and a second decontamination channel 33. The first decontamination channels 30 and 31 can be connected to the fifth outlet 2D of the third receiving device 22 via pipes 28 and 35, for receiving the third target cleaning medium. The second decontamination channel 33 can be connected to the fourth outlet 4B via pipes 29 and 34, for receiving the first target cleaning medium.

[0072] In this embodiment of the application, a booster pump is also included, which is installed on the pipeline between the fourth outlet 4B and the fourth inlet 1D, for increasing the pressure of the first target cleaning medium.

[0073] like Figure 1 As shown, the decontamination system also includes a booster pump 17. The booster pump 17 is installed on the pipe 13 between the fourth outlet 4B and the fourth inlet 1D to increase the pressure of the first target cleaning medium.

[0074] In this embodiment of the application, it further includes: a fourth containing device, which is connected to the third containing device and is filled with a decontamination agent.

[0075] like Figure 1 As shown, the decontamination system also includes a fourth containing device 18. The fourth containing device 18 may be a powder mixing tank. The fourth containing device 18 may be connected to the third containing device 22, and the fourth containing device contains a decontamination liquid.

[0076] In this embodiment of the application, it further includes: a fifth containing device, wherein the sixth outlet 1E of the decontamination site and the fifth inlet 1F of the fifth containing device are connected by a pipe to contain the decontamination liquid after the object to be cleaned is cleaned.

[0077] like Figure 1 As shown, the decontamination system also includes a fifth receiving device 23. The fifth receiving device 23 can be a residual liquid collection tank. The sixth outlet 1E of the decontamination site 32 can be connected to the fifth outlet 1F of the fifth receiving device 23 via a pipe 26, and is used to receive the decontamination liquid after the object to be cleaned is cleaned.

[0078] In this embodiment of the application, a control switch is also included, which is installed on the first water inlet 1B and is used to identify the volume of the cleaning medium flowing into the second receiving device.

[0079] like Figure 1 As shown, the decontamination system also includes a control switch 7. The control switch 7 can be an inductive switch. The control switch 7 can be installed on the first water inlet 1B to identify the volume of the cleaning medium flowing into the second receiving device 8.

[0080] In the embodiments of this application, such as Figure 1 As shown, the decontamination system includes a first containment device 1, a control ball valve 3, an inlet pump 4, a control valve 5, a second containment device 8, a control switch 7, a heating device 10, a circulation pump 12, a control ball valve 15, a booster pump 17, a control ball valve 20, a third containment device 22, a mixed liquid outlet valve 25, a clean water outlet valve 24, a mixed liquid outlet valve 37, a clean water outlet valve 36, a fourth containment device 18, a control ball valve 16, a fifth containment device 23, a decontamination area 32, and a sewage pump 27. The first containment device 1 includes a first outlet 1A. The second containment device 8 includes a first inlet 1B, a second outlet 2B, a third inlet 3B, and a fourth outlet 4B. The heating device 10 includes a second inlet 1C, a third outlet 2C, and a hot water boiler control panel 11. The decontamination area 32 includes first decontamination channels 30 and 31, a second decontamination channel 33, and a sixth outlet 1E. The third containment device 22 includes a fourth inlet 1D and a fifth outlet 2D. The fifth containment device 23 includes a fifth inlet 1F.

[0081] The first outlet 1A of the first receiving device 1 is connected to the first inlet 1B of the second receiving device 8 via pipe 2, and a control ball valve 3 and an inlet pump 4 are installed sequentially on pipe 2. The first outlet 1A of the first receiving device can also be connected to the fourth receiving device 18 via pipe 2 and pipe 14, and a control ball valve 16 is installed on pipe 14.

[0082] The second outlet 2B of the second receiving device 8 is connected to the second inlet 1C of the heating device via pipe 9. A circulation pump 12 is installed on pipe 9. The third outlet 2C of the heating device 10 is connected to the third inlet 3B of the second receiving device 8 via pipe 9. The fourth outlet 4B of the second receiving device 8 is connected to pipe 13. The first outlet 1A of the first receiving device 1 can be connected to pipe 13 via pipes 2 and 6 in sequence, and a control valve 5 can be installed on pipe 6.

[0083] A control ball valve 15 and a booster pump 17 can be installed sequentially on pipe 13. Pipe 13 can be connected to pipe 19 and pipe 21 respectively.

[0084] The pipe 19 is equipped with a clean water outlet valve 24, and the pipe 19 can be connected to the pipes 29 and 34 respectively to access the decontamination site 32. The pipe 34 can be equipped with a clean water outlet valve 36.

[0085] A control ball valve 20 is installed on the pipe 21, and the pipe 21 is connected to the fourth inlet 1D of the third receiving device 22.

[0086] The third containment device 22 and the fourth containment device 18 are connected by pipes, and the fifth outlet 2D of the third containment device 22 is connected to pipes 28 and 35 respectively, and is connected to the decontamination site 32 through pipes 28 and 35. Among them, a mixed liquid outlet valve 25 is installed on pipe 28, and a mixed liquid outlet valve 37 is installed on pipe 35.

[0087] The decontamination area 32 includes first decontamination channels 30 and 31, second decontamination channel 33, and sixth outlet 1E. The sixth outlet is connected to the fifth inlet of the fifth receiving device 23 via pipe 26. A sewage pump 27 is installed on pipe 26.

[0088] The above-mentioned disinfection system can achieve constant temperature disinfection of the object to be cleaned, as well as rapid switching of disinfection liquid and disinfection temperature. It has higher disinfection efficiency, is more convenient to operate, and has greater adaptability. In addition, it can realize the recycling of disinfection wastewater, which is beneficial to environmental protection.

[0089] Figure 2 The illustration schematically shows a flow chart of a control method for a decontamination system according to an embodiment of this application. Figure 2As shown in the figure, this application provides a control method for a decontamination system. The decontamination system includes a first containing device, a second containing device, a heating device, and a decontamination area for cleaning objects to be cleaned. The first outlet 1A of the first containing device is connected to the first inlet 1B of the second containing device through a pipe. The second outlet 2B of the second containing device is connected to the second inlet 1C of the heating device through a pipe. A circulation pump is installed on the pipe between the second outlet 2B and the second inlet 1C. The third outlet 2C of the heating device is connected to the third inlet 3B of the second containing device through a pipe. The decontamination area is connected to the fourth outlet 4B of the second containing device through a pipe. The method may include the following steps.

[0090] Step 201: After the decontamination system is started, receive mode control commands for the decontamination system.

[0091] Step 202: Based on the mode control command, control the cleaning medium in the first receiving device to flow out from the first outlet 1A and flow into the second receiving device from the first inlet 1B.

[0092] The decontamination system may include a first containment device, a second containment device, a heating device, and a decontamination area. The first outlet 1A of the first containment device may be connected to the first inlet 1B of the second containment device via a pipe. The second outlet 2B of the second containment device may be connected to the second inlet 1C of the heating device via a pipe, and a circulation pump is installed on the pipe between the second outlet 2B and the second inlet 1C. The third outlet 2C of the heating device may be connected to the third inlet 3B of the second containment device via a pipe. The decontamination area may be connected to the fourth outlet 4B of the second containment device via a pipe.

[0093] After the decontamination system is started, the processor can receive mode control commands for the decontamination system. After receiving the mode control commands, the processor can control the cleaning medium in the first receiving device to flow out from the first outlet 1A and into the second receiving device through the first inlet 1B.

[0094] Step 203: Control the circulation pump to start, and control the second outlet 2B, the second inlet 1C, the third outlet 2C and the third inlet 3B to open.

[0095] After the cleaning medium flows into the second container, the processor can control the circulation pump to start and control the second outlet 2B, the second inlet 1C, the third outlet 2C and the third inlet 3B to open the pipeline after the second container and the heating device, so that the cleaning medium can circulate between the second container and the heating device.

[0096] Step 204: Control the cleaning medium in the second receiving device to flow out from the second outlet 2B and flow into the heating device through the second inlet 1C for heating, so as to obtain the first target cleaning medium.

[0097] After the second outlet 2B, the second inlet 1C, the third outlet 2C, and the third inlet 3B are opened, the processor can control the cleaning medium in the second receiving device to flow out from the second outlet 2B and into the heating device through the second inlet 1C for heating to obtain the first target cleaning medium. The temperature of the first cleaning medium is higher than that of the cleaning medium.

[0098] Step 205: Control the first target cleaning medium to flow out from the third outlet 2C and into the second receiving device through the third inlet 3B.

[0099] After obtaining the first target cleaning medium, the processor can control the first target cleaning medium to flow out from the third outlet and into the second container through the third inlet 3B. This enables the cleaning medium to circulate and heat between the second container and the heating device, thus continuously providing the first target cleaning medium at a constant temperature.

[0100] Step 206: Control the fourth outlet 4B to open so that the first target cleaning medium flows out from the fourth outlet 4B and flows into the decontamination site through the pipeline to clean the objects to be cleaned in the decontamination site.

[0101] After the first target cleaning medium flows into the second receiving device, the processor can control the fourth outlet 4B to open, allowing the first target cleaning medium to flow out from the fourth outlet 4B. This medium then flows through a pipe into the decontamination area to clean the objects to be cleaned there.

[0102] In this embodiment, the mode control command is a first mode control command. The fourth outlet 4B is connected to the fourth inlet 1D of the third containing device for containing the decontamination agent through a pipeline. The fifth outlet 2D of the third containing device is connected to the decontamination site through a first pipeline. The control method further includes: after the first target cleaning medium flows out from the fourth outlet 4B, controlling the first target cleaning medium to flow into the third containing device from the fourth inlet 1D, so that the first target cleaning medium and the decontamination agent are mixed in a preset ratio to obtain the third target cleaning medium; controlling the third target cleaning medium to flow out from the fifth outlet 2D and flow into the decontamination site through the first pipeline to clean the object to be cleaned.

[0103] The mode control command is the first mode control command. The fourth outlet 4B is connected to the first inlet 1D of the third receiving device via a pipe, and the fifth outlet 2D of the third receiving device is connected to the decontamination site via a first pipe. After the first target cleaning medium flows out from the fourth outlet 4B, the processor can control the first target cleaning medium to flow from the fourth inlet 1D into the third receiving device, so that the first target cleaning medium and the decontamination agent are mixed in a preset ratio to obtain the third target cleaning medium. After obtaining the third target cleaning medium, the processor can control the third target cleaning medium to flow out from the fifth outlet 2D and flow into the decontamination site through the first pipe for cleaning the object to be cleaned.

[0104] For example, such as Figure 1 As shown, the decontamination system includes a first containment device 1, a second containment device 8, a heating device 10, a circulating pump 12, and a decontamination area 32. The first outlet 1A of the first containment device 1 and the first inlet 1B of the second containment device 8 are connected by a pipe 2, and a control ball valve 3 and an inlet pump 4 are installed sequentially on the pipe 2. The first outlet 1A of the first containment device can also be connected to a fourth containment device 18 sequentially through pipes 2 and 14, and a control ball valve 16 is installed on pipe 14.

[0105] The second outlet 2B of the second receiving device 8 is connected to the second inlet 1C of the heating device via pipe 9. A circulation pump 12 is installed on pipe 9. The third outlet 2C of the heating device 10 is connected to the third inlet 3B of the second receiving device 8 via pipe 9. The fourth outlet 4B of the second receiving device 8 is connected to pipe 13. The first outlet 1A of the first receiving device 1 can be connected to pipe 13 via pipes 2 and 6 in sequence, and a control valve 5 can be installed on pipe 6.

[0106] A control ball valve 15 and a booster pump 17 can be sequentially installed on pipe 13. Pipe 13 can be connected to pipe 19 and pipe 21 respectively. Pipe 19 is equipped with a clean water outlet valve 24 and can be connected to pipes 29 and 34 respectively to access the decontamination area 32. Pipe 34 can be equipped with a clean water outlet valve 36. Pipe 21 is equipped with a control ball valve 20 and is connected to the fourth inlet 1D of the third receiving device 22.

[0107] The third containment device 22 and the fourth containment device 18 are connected by pipes, and the fifth outlet 2D of the third containment device 22 is connected to pipes 28 and 35 respectively, and is connected to the decontamination site 32 through pipes 28 and 35. Among them, a mixed liquid outlet valve 25 is installed on pipe 28, and a mixed liquid outlet valve 37 is installed on pipe 35.

[0108] The decontamination area 32 includes first decontamination channels 30 and 31, second decontamination channel 33, and sixth outlet 1E. The sixth outlet is connected to the fifth inlet of the fifth receiving device 23 via pipe 26. A sewage pump 27 is installed on pipe 26.

[0109] The first containing device 1 can be a clean water tank, the second containing device 8 can be a hot water tank, the heating device 10 can be a hot water boiler, the third containing device 22 can be a mixing tank, the fourth containing device 18 can be a powder mixing tank, the fifth containing device 23 can be a residual liquid collection tank, and the cleaning site 32 can be a mobile multi-person decontamination tent.

[0110] After the decontamination system is started, the processor can receive mode control commands for the decontamination system. Upon receiving the mode control commands, the processor can, based on the mode control commands, control the cleaning medium in the first receiving device 1 to flow out from the first outlet 1A, and then through pipe 2 to flow into the second receiving device 8 from the first inlet 1B. After the cleaning medium flows into the second receiving device 8, the processor can control the circulation pump 12 to start, and control the second outlet 2B, the second inlet 1C, the third outlet 2C, and the third inlet 3B to open. The processor can control the cleaning medium in the second receiving device 8 to flow out from the second outlet 2B, and then through the second inlet 1C to flow into the heating device 10. The processor can control the hot water boiler panel 11 in the heating device 10 to heat the cleaning medium flowing into the heating device 10 to obtain the first target cleaning medium. The processor can also control the first target cleaning medium to flow out from the third outlet 3B and then through the pipe 9 to flow into the second receiving device 8 from the third inlet 3B, so as to realize the circulation and heating of the cleaning medium between the second receiving device and the heating device 10. After obtaining the first target cleaning medium, the processor can control the fourth outlet 4B to flow out, so that the first target cleaning medium can flow out from the fourth outlet.

[0111] The processor can control the flow of the first target cleaning medium to pipe 13, and then into the booster pump 17 for pressurization. After the first target cleaning medium is pressurized, the processor can control the opening of the clean water outlet valve 24 and the clean water outlet valve 36, and control the flow of the first target cleaning medium from pipe 19 to pipes 29 and 34 to clean the object to be cleaned in the cleaning site 32.

[0112] The fourth outlet 4B is connected to pipe 13, which is connected to pipe 21, allowing the fourth outlet 4B to connect to the fourth inlet 1D of the third containment device. The fifth outlet 2D of the third containment device can connect to the decontamination site via pipes 28 and 35. When the mode control command is the first mode control command, after the first target cleaning medium flows out of the fourth outlet, the processor can control the first target cleaning medium to flow into pipe 13 and be pressurized by booster pump 17, so that the first target cleaning medium flows into the third containment device 22 after passing through pipe 21, and automatically absorbs the decontamination agent in the fourth containment device 18 connected to the third containment device 22, so that the first target cleaning medium and the decontamination agent are mixed in the third containment device 22 according to a preset ratio to obtain the third target cleaning medium. After obtaining the third target cleaning medium, the processor can control the third target cleaning medium to flow out from the fifth outlet 2D. The processor can control the opening of the mixed liquid outlet valve 25 and the mixed liquid outlet valve 37, and the third target cleaning medium flows into the fifth outlet 2D through the pipes 28 and 35 respectively, and then into the decontamination site 32 to clean the object to be cleaned. This realizes multi-channel continuous decontamination of the object to be cleaned.

[0113] In this embodiment, the mode control command is a second mode control command. The fourth outlet 4B is connected to the decontamination site through a second pipe. The control method further includes: after the first target cleaning medium flows out from the fourth outlet 4B, controlling the first target cleaning medium to flow into the first decontamination channel included in the decontamination site through the second pipe; controlling the third target cleaning medium to flow out from the fifth outlet 2D and flow into the second decontamination channel included in the decontamination site through the first pipe; and cleaning the object to be cleaned by the first target cleaning medium in the first decontamination channel and the third target cleaning medium in the second decontamination channel.

[0114] After the first target cleaning medium flows out from the fourth outlet 4B, the processor can control the first target cleaning medium to flow into the first decontamination channel included in the decontamination site through the second pipe. The processor can also control the third target cleaning medium to flow out from the fifth outlet 2D and into the second decontamination channel included in the decontamination site through the first pipe. After the first target cleaning medium flows into the first decontamination channel and the third target cleaning medium flows into the second decontamination channel, the processor can clean the object to be cleaned using the first target cleaning medium in the first decontamination channel and the third target cleaning medium in the second decontamination channel.

[0115] For example, such as Figure 1As shown, the fourth outlet 4B of the second receiving device 8 can be connected to pipe 13. A booster pump 17 is installed on pipe 13, and pipe 13 is connected to pipe 19. Pipe 19 is connected to the decontamination site 32 via pipe 29 and pipe 34. When the mode control command is the second mode control command, after the first target cleaning medium flows out from the fourth outlet 4B, the processor can control the first target cleaning medium to flow into pipe 13 and pressurize it through the booster pump 17 to obtain the pressurized first target cleaning medium. After obtaining the pressurized first target cleaning medium, the processor can control the first target cleaning medium to flow into pipe 19, and then through pipe 19 and through pipes 29 and 34 respectively, to flow into the first decontamination channel 33 of the decontamination site.

[0116] After receiving the pressurized first target cleaning medium, the processor can control the first target cleaning medium to flow into pipe 21, and then into the third receiving device 22 through pipe 21 to adsorb the decontamination agent in the fourth receiving device 18. The processor also controls the first target cleaning medium to mix with the decontamination agent in the third receiving device 22 at a preset ratio to obtain the third target cleaning medium. After obtaining the third target cleaning medium, the processor can control the third target cleaning medium to flow out from the fifth outlet 2D, and then into the second decontamination channels 30 and 31 of the decontamination site through pipes 28 and 35.

[0117] After controlling the first target cleaning medium to flow into the first decontamination channel 33, the second decontamination channel 30 and 31, the processor can first control the third target cleaning medium to clean the object to be cleaned, and then control the first target cleaning medium to clean the object to be cleaned, so as to reduce mode switching and improve decontamination efficiency.

[0118] In this embodiment, the mode control command is a first mode control command. The fourth outlet 4B is connected to the fourth inlet 1D of the third containing device for containing the decontamination agent through a pipeline. The fifth outlet 2D of the third containing device is connected to the decontamination site through a first pipeline. The control method further includes: after the first target cleaning medium flows out from the fourth outlet 4B, controlling the first target cleaning medium to flow into the third containing device from the fourth inlet 1D, so that the first target cleaning medium and the decontamination agent are mixed in a preset ratio to obtain the third target cleaning medium; controlling the third target cleaning medium to flow out from the fifth outlet 2D and flow into the decontamination site through the first pipeline to clean the object to be cleaned.

[0119] The mode control command can be a first mode control command. The fourth outlet 4B can be connected via a pipe to the fourth inlet 1D of the third container for containing the decontamination agent. The fifth outlet 2D of the third container can be connected to the decontamination area via a first pipe. After cleaning the objects to be cleaned within the decontamination area, the processor can receive a mode switching command for the decontamination system.

[0120] When the mode switching instruction is set to the first instruction, the processor can control the control valve to open, allowing the cleaning medium to flow out from the first outlet 1A. This cleaning medium then mixes with the first target cleaning medium flowing out from the fourth outlet 4B via the control valve to obtain the second target cleaning medium. The temperature of the first target cleaning medium is higher than that of the second target cleaning medium. After obtaining the second target cleaning medium, the processor can control it to flow through a pipeline into the decontamination area to clean the object to be cleaned. This rapidly lowers the temperature of the cleaning medium, better meeting the cleaning requirements of the object to be decontaminated.

[0121] In this embodiment of the application, the control method further includes: when the mode switching command is the second command, controlling the fourth outlet 4B and the third outlet 2C to close so that the first target cleaning medium stops flowing into the decontamination site; controlling the control valve to open so that the cleaning medium flows out from the first outlet 1A and flows into the decontamination site through the pipeline to clean the object to be cleaned.

[0122] When the mode switching command is the second command, the processor can control the fourth outlet 4B and the third outlet 2C to close, so that the first target cleaning medium stops flowing into the decontamination site. The processor can also control the control valve to open, so that the cleaning medium flows out from the first outlet 1A and flows into the decontamination site through the pipeline to clean the object to be cleaned, thereby realizing rapid switching of the cleaning medium. It can directly switch the cleaning medium in the first receiving device for cleaning during decontamination, thereby enhancing the decontamination effect.

[0123] For example, such as Figure 1As shown, after the first outlet 1A is connected to pipe 2, it can be connected to pipe 6, and a control valve 5 is installed on pipe 6. Pipe 6 can be connected to pipe 13. After cleaning the objects to be cleaned in the decontamination area, the processor can receive a mode switching command for the decontamination system. After receiving the mode switching command, the processor can determine whether the mode switching command is the first command or the second command. If the mode switching command is determined to be the first command, the processor can control the control valve 5 to open, so that the cleaning medium flows out from the first outlet 1A and into pipe 2. After passing through pipe 2, it flows into pipe 6, and then into pipe 13 after passing through the control valve 5. The processor can control the first target cleaning medium to flow out from the fourth outlet 4B of the second receiving device and into pipe 13, so that the cleaning medium and the first target cleaning medium are mixed in pipe 13 to obtain the second target cleaning medium. After obtaining the second target cleaning medium, the second target cleaning medium is controlled to flow into the decontamination area 32 through pipe 13 to clean the objects to be cleaned.

[0124] When the switching command is determined to be the second command, the processor can control the fourth outlet 4B and the third outlet 2C to close, so that the first target cleaning medium stops flowing into the decontamination area 32. The processor can also control the control valve 5 to open, so that the cleaning medium in the first receiving device 1 flows out from the first outlet 1A, flows into the pipe 13 after passing through the pipe 2 and the pipe 6, and finally flows into the decontamination area 32, so as to achieve rapid temperature switching or direct control of the cleaning medium to clean the object to be cleaned.

[0125] In this embodiment, the decontamination system further includes a booster pump and a fourth containment device containing a decontamination agent. The booster pump is installed on a pipeline between the fourth outlet 4B and the fourth inlet 1D. The fourth containment device is connected to the third containment device via a pipeline. The control method further includes: controlling the booster pump to start so that the pressure of the first target cleaning medium meets a preset pressure value; controlling the first target cleaning medium meeting the preset pressure value to flow from the fourth inlet 1D into the third containment device; and controlling the decontamination agent in the fourth containment device to flow into the third containment device through a pipeline based on the pressure difference between the first target cleaning medium and the decontamination agent in the fourth containment device, so that the first target cleaning medium and the decontamination agent are mixed in the third containment device.

[0126] The decontamination system may also include a booster pump and a fourth containment device filled with decontamination agent. The booster pump is installed on the pipeline between the fourth outlet 4B and the fourth inlet 1D, and the fourth containment device is connected to the third containment device. The processor can control the booster pump to start, so that the pressure of the first target cleaning medium meets a preset pressure value. It also controls the first target cleaning medium, meeting the preset pressure value, to flow from the fourth inlet 1D into the third containment device. After the first target cleaning medium flows into the third containment device, the processor can, based on the pressure difference between the first target cleaning medium and the decontamination agent in the fourth containment device, control the decontamination agent in the fourth containment device to flow through the pipeline into the third containment device, so that the first target cleaning medium and the decontamination agent mix in the third containment device.

[0127] In this embodiment of the application, the decontamination system further includes a fifth receiving device. The sixth outlet 1E of the decontamination site and the fifth inlet 1F of the fifth receiving device are connected by a pipeline. The control method further includes controlling the decontamination liquid after cleaning the object to be cleaned to flow out from the sixth outlet 1E and into the fifth receiving device through the fifth inlet 1F.

[0128] The decontamination system also includes a fifth containment device. The sixth outlet 1E of the decontamination site is connected to the fifth inlet 1F of the fifth containment device via a pipeline. The processor can control the decontamination liquid after cleaning the object to be cleaned to flow out from the sixth outlet 1E and into the fifth containment device through the fifth inlet 1F, so as to collect the waste liquid after decontamination, reduce pollution, and protect the environment.

[0129] In the embodiments of this application, such as Figure 1 As shown, the decontamination system includes a first containment device 1, a control ball valve 3, an inlet pump 4, a control valve 5, a second containment device 8, a control switch 7, a heating device 10, a circulation pump 12, a control ball valve 15, a booster pump 17, a control ball valve 20, a third containment device 22, a mixed liquid outlet valve 25, a clean water outlet valve 24, a mixed liquid outlet valve 37, a clean water outlet valve 36, a fourth containment device 18, a control ball valve 16, a fifth containment device 23, a decontamination area 32, and a sewage pump 27. The first containment device 1 includes a first outlet 1A. The second containment device 8 includes a first inlet 1B, a second outlet 2B, a third inlet 3B, and a fourth outlet 4B. The heating device 10 includes a second inlet 1C, a third outlet 2C, and a hot water boiler control panel 11. The decontamination area 32 includes first decontamination channels 30 and 31, a second decontamination channel 33, and a sixth outlet 1E. The third containment device 22 includes a fourth inlet 1D and a fifth outlet 2D. The fifth containment device 23 includes a fifth inlet 1F.

[0130] The first outlet 1A of the first receiving device 1 is connected to the first inlet 1B of the second receiving device 8 via pipe 2, and a control ball valve 3 and an inlet pump 4 are installed sequentially on pipe 2. The first outlet 1A of the first receiving device can also be connected to the fourth receiving device 18 via pipe 2 and pipe 14, and a control ball valve 16 is installed on pipe 14.

[0131] The second outlet 2B of the second receiving device 8 is connected to the second inlet 1C of the heating device via pipe 9. A circulation pump 12 is installed on pipe 9. The third outlet 2C of the heating device 10 is connected to the third inlet 3B of the second receiving device 8 via pipe 9. The fourth outlet 4B of the second receiving device 8 is connected to pipe 13. The first outlet 1A of the first receiving device 1 can be connected to pipe 13 via pipes 2 and 6 in sequence, and a control valve 5 can be installed on pipe 6.

[0132] A control ball valve 15 and a booster pump 17 can be sequentially installed on pipe 13. Pipe 13 can be connected to pipe 19 and pipe 21 respectively. Pipe 19 is equipped with a clean water outlet valve 24 and can be connected to pipes 29 and 34 respectively to access the decontamination area 32. Pipe 34 can be equipped with a clean water outlet valve 36. Pipe 21 is equipped with a control ball valve 20 and is connected to the fourth inlet 1D of the third receiving device 22.

[0133] The third containment device 22 and the fourth containment device 18 are connected by pipes, and the fifth outlet 2D of the third containment device 22 is connected to pipes 28 and 35 respectively, and is connected to the decontamination site 32 through pipes 28 and 35. Among them, a mixed liquid outlet valve 25 is installed on pipe 28, and a mixed liquid outlet valve 37 is installed on pipe 35.

[0134] The decontamination area 32 includes first decontamination channels 30 and 31, second decontamination channel 33, and sixth outlet 1E. The sixth outlet is connected to the fifth inlet of the fifth receiving device 23 via pipe 26. A sewage pump 27 is installed on pipe 26.

[0135] After the decontamination system is started, the processor can receive mode control commands for the system. Upon receiving these commands, the processor can, based on the commands, control the cleaning medium in the first receiving device 1 to flow out from the first outlet 1A and then through the pipe 2 to the second receiving device 8 from the first inlet 1B. Specifically, the processor can open the control ball valve 3 and close the control valve 5. It can also control the inlet pump 4 to start, allowing the cleaning medium to flow into the second receiving device.

[0136] After the cleaning medium flows into the second receiving device 8, the processor can control the control switch 7 to sense the volume of the cleaning medium in the second receiving device 10, thereby automatically controlling the start and stop of the inlet pump 4. The processor can also control the circulation pump 12 to start and control the opening of the second outlet 2B, the second inlet 1C, the third outlet 2C, and the third inlet 3B. The processor can control the cleaning medium in the second receiving device 8 to flow out from the second outlet 2B and into the heating device 10 through the second inlet 1C. The processor can control the hot water boiler panel 11 in the heating device 10 to heat the cleaning medium flowing into the heating device 10 to obtain the first target cleaning medium. The processor can also control the first target cleaning medium to flow out from the third outlet 3B and then into the second receiving device 8 through the pipe 9 and the third inlet 3B, thereby realizing the circulation and heating of the cleaning medium between the second receiving device and the heating device 10. After obtaining the first target cleaning medium, the processor can control the fourth outlet 4B to flow out, so that the first target cleaning medium can flow out from the fourth outlet.

[0137] The processor can control the flow of the first target cleaning medium to pipe 13. The processor can control the start of the booster pump 17 so that the pressure of the first target cleaning medium flowing into the booster pump 17 after passing through pipe 13 meets the preset pressure value. After the pressure of the first target cleaning medium meets the preset pressure value, the processor can control the opening of the clean water outlet valve 24 and the clean water outlet valve 36, and control the flow of the first target cleaning medium from pipe 19 to pipes 29 and 34 to clean the object to be cleaned in the cleaning site 32.

[0138] When the mode control command is the first mode control command, after the first target cleaning medium flows out from the fourth outlet, the processor can control the first target cleaning medium to flow into pipe 13. The processor can control the booster pump 17 to start, so that the pressure of the first target cleaning medium flowing into the booster pump 17 after passing through pipe 13 meets the preset pressure value. After the pressure of the first target cleaning medium meets the preset pressure value, the processor can control the first target cleaning medium to flow into the third receiving device 22 through pipe 21, and automatically absorb the decontamination agent in the fourth receiving device 18 connected to the third receiving device 22, so that the first target cleaning medium and the decontamination agent are mixed in the third receiving device 22 according to a preset ratio to obtain the third target cleaning medium. After obtaining the third target cleaning medium, the processor can control the third target cleaning medium to flow out from the fifth outlet 2D. The processor can control the mixed liquid outlet valve 25 and the mixed liquid outlet valve 37 to open, and the third target cleaning medium flows from the fifth outlet 2D into pipes 28 and 35 respectively, and into the decontamination site 32 to clean the object to be cleaned. Multi-channel continuous decontamination of the object to be cleaned is realized.

[0139] When the mode control command is the second mode control command, after the first target cleaning medium flows out from the fourth outlet 4B, the processor can control the first target cleaning medium to flow into the pipeline 13. The processor can control the booster pump 17 to start so that the pressure of the first target cleaning medium flowing into the booster pump 17 after passing through the pipeline 13 meets the preset pressure value.

[0140] After the pressure of the first target cleaning medium meets the preset pressure value, the processor can control the first target cleaning medium to flow into pipe 19, and then through pipe 19 through pipes 29 and 34 respectively, so as to flow into the first decontamination channel 33 of the decontamination site.

[0141] After the pressure of the first target cleaning medium reaches a preset pressure value, the processor can control the first target cleaning medium to flow into pipe 21 and then into the third receiving device 22 to adsorb the decontamination agent in the fourth receiving device 18. The processor also controls the first target cleaning medium to mix with the decontamination agent in the third receiving device 22 at a preset ratio to obtain the third target cleaning medium. After obtaining the third target cleaning medium, the processor can control the third target cleaning medium to flow out from the fifth outlet 2D and into the second decontamination channels 30 and 31 of the decontamination site through pipes 28 and 35.

[0142] After controlling the first target cleaning medium to flow into the first decontamination channel 33, the second decontamination channel 30 and 31, the processor can first control the third target cleaning medium to clean the object to be cleaned, and then control the first target cleaning medium to clean the object to be cleaned.

[0143] After cleaning the objects to be cleaned in the decontamination area, the processor can receive a mode switching command for the decontamination system. Upon receiving the mode switching command, the processor can determine whether it is a first command or a second command. If the mode switching command is determined to be the first command, the processor can control the control valve 5 to open, allowing the cleaning medium to flow from the first outlet 1A into pipe 2. After passing through pipe 2, it flows into pipe 6, and then through control valve 5 into pipe 13. The processor can control the first target cleaning medium to flow from the fourth outlet 4B of the second receiving device into pipe 13, so that the cleaning medium and the first target cleaning medium mix in pipe 13 to obtain a second target cleaning medium. After obtaining the second target cleaning medium, the processor controls the second target cleaning medium to flow through pipe 13 into the decontamination area 32 for cleaning the objects to be cleaned.

[0144] If the switching command is determined to be the second command, the processor can control the fourth outlet 4B and the third outlet 2C to close, so that the first target cleaning medium stops flowing into the decontamination area 32. The processor can also control the control valve 5 to open, so that the cleaning medium in the first receiving device 1 flows out from the first outlet 1A, flows into the pipe 13 after passing through the pipe 2 and the pipe 6, and finally flows into the decontamination area 32 to clean the object to be cleaned.

[0145] After the object to be cleaned is cleaned, the processor can control the sewage pump 27 to start, so that the cleaning and disinfection liquid after cleaning can flow out from the sixth outlet 1E, and after flowing through the pipe 26, it flows into the fifth container from the fifth inlet 1F, so as to collect the wastewater generated after cleaning and disinfection and reduce environmental pollution.

[0146] By adopting the above technical solution, a constant temperature decontamination medium can be continuously provided to the object to be decontaminated, resulting in faster decontamination efficiency and better decontamination effect.

[0147] Figure 2 This is a flowchart illustrating a control method for a decontamination system in one embodiment. It should be understood that, although... Figure 2 The steps in the flowchart are shown sequentially as indicated by the arrows, but these steps are not necessarily executed in the order indicated by the arrows. Unless otherwise specified herein, there is no strict order in which these steps are executed, and they can be performed in other orders. Figure 2 At least some of the steps in the process may include multiple sub-steps or multiple stages. These sub-steps or stages are not necessarily completed at the same time, but can be executed at different times. The execution order of these sub-steps or stages is not necessarily sequential, but can be executed in turn or alternately with other steps or at least some of the sub-steps or stages of other steps.

[0148] This application provides a processor for running a program, wherein the program executes the control method for the decontamination system described above.

[0149] This application provides a decontamination system, including:

[0150] The first container is connected to the first outlet 1A of the first container and the first inlet 1B of the second container via a pipe.

[0151] The second container is connected to the second water outlet 2B of the second container via a pipe;

[0152] A circulation pump is installed on the pipeline between the second outlet 2B and the second inlet 1C.

[0153] The heating device has its third outlet 2C connected to the third inlet 3B of the second receiving device via a pipe.

[0154] The decontamination area is used for cleaning the objects to be cleaned, and the decontamination area is connected to the fourth outlet 4B of the second containment device via a pipe; and

[0155] The aforementioned processor.

[0156] This decontamination system can continuously provide a constant-temperature cleaning medium to the object to be decontaminated, thus improving the decontamination efficiency.

[0157] This application also provides a machine-readable storage medium storing instructions that cause a machine to perform the control method for a decontamination system described above.

[0158] In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as follows: Figure 3 As shown. The computer device includes a processor A01, a network interface A02, memory (not shown), and a database (not shown) connected via a system bus. The processor A01 provides computing and control capabilities. The memory includes internal memory A03 and a non-volatile storage medium A04. The non-volatile storage medium A04 stores an operating system B01, a computer program B02, and a database (not shown). The internal memory A03 provides an environment for the operation of the operating system B01 and the computer program B02 stored in the non-volatile storage medium A04. The database stores data for mode control instructions. The network interface A02 communicates with external terminals via a network connection. When the computer program B02 is executed by the processor A01, it implements a control method for a decontamination system.

[0159] Those skilled in the art will understand that Figure 3 The structure shown is merely a block diagram of a portion of the structure related to the present application and does not constitute a limitation on the computer device to which the present application is applied. Specific computer devices may include more or fewer components than those shown in the figure, or combine certain components, or have different component arrangements.

[0160] This application provides an apparatus including a processor, a memory, and a program stored in the memory and executable on the processor. When the processor executes the program, it implements control method steps for a decontamination system.

[0161] This application also provides a computer program product that, when executed on a data processing device, is adapted to perform initialization steps such as those for a control method used in a decontamination system.

[0162] Those skilled in the art will understand that embodiments of this application can be provided as methods, systems, or computer program products. Therefore, this application can take the form of a completely hardware embodiment, a completely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, this application can take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage, CD-ROM, optical storage, etc.) containing computer-usable program code.

[0163] This application is described with reference to flowchart illustrations and / or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of this application. It will be understood that each block of the flowchart illustrations and / or block diagrams, and combinations of blocks in the flowchart illustrations and / or block diagrams, can be implemented by computer program instructions. These computer program instructions can be provided to a processor of a general-purpose computer, special-purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, generate instructions for implementing the flowchart... Figure 1 One or more processes and / or boxes Figure 1 A device that provides the functions specified in one or more boxes.

[0164] These computer program instructions may also be stored in a computer-readable storage medium that can direct a computer or other programmable data processing device to function in a particular manner, such that the instructions stored in the computer-readable storage medium produce an article of manufacture including instruction means, which are implemented in a process Figure 1 One or more processes and / or boxes Figure 1 The function specified in one or more boxes.

[0165] These computer program instructions may also be loaded onto a computer or other programmable data processing equipment to cause a series of operational steps to be performed on the computer or other programmable equipment to produce a computer-implemented process, thereby providing instructions that execute on the computer or other programmable equipment for implementing the process. Figure 1 One or more processes and / or boxes Figure 1 The steps of the function specified in one or more boxes.

[0166] In a typical configuration, a computing device includes one or more processors (CPU), input / output interfaces, network interfaces, and memory.

[0167] Memory may include non-persistent memory in computer-readable media, such as random access memory (RAM) and / or non-volatile memory, such as read-only memory (ROM) or flash RAM. Memory is an example of computer-readable media.

[0168] Computer-readable media includes both permanent and non-permanent, removable and non-removable media that can store information using any method or technology. Information can be computer-readable instructions, data structures, modules of programs, or other data. Examples of computer storage media include, but are not limited to, phase-change memory (PRAM), static random access memory (SRAM), dynamic random access memory (DRAM), other types of random access memory (RAM), read-only memory (ROM), electrically erasable programmable read-only memory (EEPROM), flash memory or other memory technologies, CD-ROM, digital versatile optical disc (DVD) or other optical storage, magnetic tape, magnetic magnetic disk storage or other magnetic storage devices, or any other non-transferable medium that can be used to store information accessible by a computing device. As defined herein, computer-readable media does not include transient computer-readable media, such as modulated data signals and carrier waves.

[0169] It should also be noted that the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus. Unless otherwise specified, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes that element.

[0170] The above are merely embodiments of this application and are not intended to limit the scope of this application. Various modifications and variations can be made to this application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the scope of the claims of this application.

Claims

1. A control method for a decontamination system, characterized in that, The decontamination system includes a first containing device, a second containing device, a heating device, and a decontamination area for cleaning objects to be cleaned. The first outlet (1A) of the first containing device is connected to the first inlet (1B) of the second containing device via a pipe. The second outlet (2B) of the second containing device is connected to the second inlet (1C) of the heating device via a pipe. A circulation pump is installed on the pipe between the second outlet (2B) and the second inlet (1C). The third outlet (2C) of the heating device is connected to the third inlet (3B) of the second containing device via a pipe. The decontamination area is connected to the fourth outlet (4B) of the second containing device via a pipe. The control method includes: After the decontamination system is started, a mode control command for the decontamination system is received. Based on the mode control command, the cleaning medium in the first containing device is controlled to flow out from the first outlet (1A) and flow into the second containing device from the first inlet (1B); Control the circulation pump to start, and control the second outlet (2B), the second inlet (1C), the third outlet (2C) and the third inlet (3B) to open; The cleaning medium in the second receiving device is controlled to flow out from the second outlet (2B) and flow into the heating device through the second inlet (1C) for heating, so as to obtain the first target cleaning medium; The first target cleaning medium is controlled to flow out from the third outlet (2C) and flow into the second receiving device through the third inlet (3B); The fourth outlet (4B) is opened to allow the first target cleaning medium to flow out from the fourth outlet (4B) and into the decontamination site through the pipe, so as to clean the objects to be cleaned in the decontamination site.

2. The control method for a decontamination system according to claim 1, characterized in that, The first outlet (1A) and the fourth outlet (4B) are connected by a pipe, and a control valve is installed on the pipe. The control method further includes: After cleaning the objects to be cleaned in the decontamination area, a mode switching command for the decontamination system is received. When the mode switching command is the first command, the control valve is opened to allow the cleaning medium to flow out from the first outlet (1A) and mix with the first target cleaning medium flowing out from the fourth outlet (4B) through the control valve to obtain the second target cleaning medium, wherein the temperature of the first target cleaning medium is higher than the temperature of the second target cleaning medium. The second target cleaning medium is controlled to flow into the decontamination site through the pipeline to clean the object to be cleaned.

3. The control method for a decontamination system according to claim 2, characterized in that, The control method further includes: When the mode switching command is the second command, the fourth water outlet (4B) and the third water outlet (2C) are controlled to close, so that the first target cleaning medium stops flowing into the decontamination site; The control valve is opened to allow the cleaning medium to flow out from the first outlet (1A) and into the decontamination site through the pipeline to clean the object to be cleaned.

4. The control method for a decontamination system according to claim 1, characterized in that, The mode control command is a first mode control command. The fourth outlet (4B) is connected to the fourth inlet (1D) of the third container for containing the decontamination agent via a pipe. The fifth outlet (2D) of the third container is connected to the decontamination site via a first pipe. The control method further includes: After the first target cleaning medium flows out from the fourth outlet (4B), the first target cleaning medium is controlled to flow into the third receiving device from the fourth inlet (1D) so that the first target cleaning medium and the decontamination agent are mixed in a preset ratio to obtain the third target cleaning medium. The third target cleaning medium is controlled to flow out from the fifth outlet (2D) and flow into the decontamination site through the first pipe to clean the object to be cleaned.

5. The control method for a decontamination system according to claim 4, characterized in that, The mode control command is a second mode control command, the fourth outlet (4B) is connected to the decontamination site via a second pipe, and the control method further includes: After the first target cleaning medium flows out from the fourth outlet (4B), the first target cleaning medium is controlled to flow into the first decontamination channel of the decontamination site through the second pipe; The third target cleaning medium is controlled to flow out from the fifth outlet (2D) and flow into the second decontamination channel of the decontamination site through the first pipe; The object to be cleaned is cleaned by the first target cleaning medium in the first decontamination channel and the third target cleaning medium in the second decontamination channel.

6. The control method for a decontamination system according to claim 4, characterized in that, The decontamination system further includes a booster pump and a fourth containment device filled with decontamination liquid. The booster pump is installed on the pipeline between the fourth outlet (4B) and the fourth inlet (1D). The fourth containment device is connected to the third containment device via a pipeline. The control method further includes: The booster pump is started to ensure that the pressure of the first target cleaning medium meets the preset pressure value. The first target cleaning medium, which meets the preset pressure value, flows from the fourth inlet (1D) into the third receiving device; Based on the pressure difference between the first target cleaning medium and the decontamination agent in the fourth containment device, the decontamination agent in the fourth containment device is controlled to flow into the third containment device through the pipeline, so that the first target cleaning medium and the decontamination agent are mixed in the third containment device.

7. The control method for a decontamination system according to claim 1, characterized in that, The decontamination system further includes a fifth containment device, and the sixth outlet (1E) of the decontamination site is connected to the fifth inlet (1F) of the fifth containment device through the pipeline. The control method further includes: The cleaning liquid after cleaning the object to be cleaned is controlled to flow out from the sixth outlet (1E) and flow into the fifth container through the fifth inlet (1F).

8. A processor, characterized in that, It is configured to perform the control method for a decontamination system according to any one of claims 1 to 7.

9. A decontamination system, characterized in that, include: The first receiving device has its first outlet (1A) connected to the first inlet (1B) of the second receiving device via a pipe. The second receiving device has its second outlet (2B) connected to the second inlet (1C) of the heating device via a pipe. A circulation pump is installed on the pipe between the second outlet (2B) and the second inlet (1C); The heating device has its third outlet (2C) connected to the third inlet (3B) of the second receiving device via a pipe. A decontamination area for cleaning objects to be cleaned, the decontamination area being connected to the fourth outlet (4B) of the second receiving device via a pipe; and a processor according to claim 8.

10. A machine-readable storage medium storing instructions thereon, characterized in that, When executed by a processor, the instruction causes the processor to be configured to perform a control method for a decontamination system according to any one of claims 1 to 7.