CN115737876A - Decontamination vehicle monitoring system - Google Patents

Abstract

The application relates to a decontamination vehicle monitoring system. The decontamination vehicle comprises a decontamination area, and the system comprises: the decontamination area monitoring module is arranged in the decontamination area and used for acquiring a first environmental parameter in the decontamination area; the indicating module is used for indicating the state of the decontamination area; the decontamination area adjusting module is arranged in the decontamination area and used for adjusting a first environment parameter of the decontamination area; and the control module is respectively connected with the decontamination area monitoring module, the decontamination area indicating module and the decontamination area adjusting module and is used for controlling the indicating state of the indicating module and controlling the decontamination area adjusting module to adjust the first environmental parameter according to the first environmental parameter monitored by the decontamination area monitoring module. The state of the decontamination area on the decontamination vehicle can be monitored, the prompt signal is sent according to the state of the decontamination area, and the environmental parameter is adjusted, so that a user can execute a decontamination process according to the prompt signal, decontamination efficiency of the decontamination vehicle is improved, and environmental comfort of the decontamination vehicle can be guaranteed.

Description

Decontamination vehicle monitoring system

Technical Field

The application relates to the technical field of monitoring, in particular to a decontamination vehicle monitoring system.

Background

With the development of science and technology, the development of nuclear energy, nuclear technology application and chemical industry is rapid. Nuclear energy, nuclear technology and chemical industry promote social development and economic construction, and benefit mankind, and meanwhile, nuclear chemical emergencies occur, so that field personnel can be polluted by radioactive substances or chemical substances. In order to rapidly and timely carry out emergency disposal and guarantee the life health and safety of the general public and field personnel to the maximum extent, a decontamination vehicle is required to be adopted, and the decontamination vehicle can rapidly arrive at the scene of the incident to decontaminate polluted personnel. However, the existing decontamination vehicle has low decontamination efficiency.

Disclosure of Invention

In view of the above, it is necessary to provide a decontamination vehicle monitoring system capable of improving decontamination efficiency.

A decontamination vehicle monitoring system, the decontamination vehicle including a decontamination area, the system comprising: the decontamination area monitoring module is arranged in the decontamination area and is used for acquiring a first environmental parameter in the decontamination area; the indicating module is used for indicating the state of the decontamination area; the decontamination area adjusting module is arranged in the decontamination area and used for adjusting a first environment parameter of the decontamination area; and the control module is respectively connected with the decontamination area monitoring module, the decontamination area indicating module and the decontamination area adjusting module and is used for controlling the indicating state of the indicating module and controlling the decontamination area adjusting module to adjust the first environmental parameters according to the first environmental parameters monitored by the decontamination area monitoring module.

In one embodiment, the decontamination area comprises a local compartment and a whole body compartment, and the first environmental parameter comprises a first air pressure and a first temperature and humidity; the decontamination area monitoring module comprises: the first air pressure transmitter is arranged in the decontamination area and used for acquiring first air pressure in the decontamination area; the first temperature and humidity transmitter is arranged in the decontamination area and is used for acquiring a first temperature and humidity in the decontamination area; an indication button disposed within the local compartment for determining whether an object is present within the local compartment according to a user instruction; an ultrasound sensor disposed within the whole-body compartment for detecting the presence of a subject within the whole-body compartment; the control module is respectively connected with the first air pressure transmitter, the first temperature and humidity transmitter, the indicating button and the ultrasonic sensor, and is used for controlling the decontamination area adjusting module to adjust the first temperature and humidity according to the first temperature and humidity, and controlling the indicating state of the indicating module according to whether an object exists in the local compartment or not, whether an object exists in the whole body compartment or not and the first air pressure.

In one embodiment, the indication module comprises: local compartment state indicator light, whole body compartment state indicator light, speaker; the control module is respectively connected with the local compartment state indicator lamp, the whole body compartment state indicator lamp and the whole body compartment loudspeaker, and is used for controlling the local compartment state indicator lamp to be turned on when an object exists in the local compartment, controlling the whole body compartment state indicator lamp to be turned on when an object exists in the whole body compartment, and controlling the loudspeaker to give an alarm when the first air pressure is out of a preset range.

In one embodiment, the decontamination area adjustment module comprises: the first heat pump unit is arranged in the decontamination area and used for supplying heat to the decontamination area when the first heat pump unit is started; the control module is connected with the first heat pump unit and used for controlling whether the first heat pump unit is started or not according to the first temperature and humidity so as to keep the first temperature and humidity at a first set value.

In one embodiment, the decontamination vehicle further comprises a water tank connected with the reservoir through a suction pump, the water tank is used for supplying water to the decontamination area, and the system further comprises: the water tank parameter monitoring module is arranged in the water tank and is used for monitoring parameters of the water tank; the heater is arranged in the water tank and used for heating the water tank; the control module is respectively connected with the water tank parameter monitoring module, the water suction pump and the heater and used for controlling the working state of the water suction pump and the working state of the heater according to the parameters of the water tank.

In one embodiment, the tank parameter monitoring module comprises: the first liquid level meter is arranged in the water tank and used for measuring the water level of the water tank; the temperature sensor is arranged in the water tank and used for measuring the water temperature of the water tank; the control module is respectively connected with the first liquid level meter and the temperature sensor and used for controlling the water suction pump to work according to the water level of the water tank so as to keep the water level of the water tank at a second set value, and controlling the heater to work according to the water temperature of the water tank so as to keep the water temperature of the water tank at a third set value.

In one embodiment, the decontamination vehicle further comprises a seating area, the system further comprising: the arrangement area monitoring module is arranged in the arrangement area and used for acquiring second environmental parameters in the arrangement area; the arrangement area adjusting module is used for adjusting a second environment parameter of the arrangement area; the control module is respectively connected with the arrangement region monitoring module and the arrangement region adjusting module and is used for adjusting the second environmental parameters of the arrangement region according to the second environmental parameters monitored by the arrangement region monitoring module.

In one embodiment, the second environmental parameter includes a second air pressure and a second temperature and humidity; the seating area monitoring module includes: the second air pressure transmitter is arranged in the mounting area and used for acquiring second air pressure in the mounting area; the second temperature and humidity transmitter is arranged in the arrangement area and used for acquiring a second temperature and humidity in the arrangement area; the mounting region adjustment module includes: the second heat pump unit is used for supplying heat to the decontamination area when the second heat pump unit is started; the control module is respectively connected with the second air pressure transmitter, the second temperature and humidity transmitter and the second heat pump unit and used for recording the second air pressure and controlling whether the second heat pump unit is started or not according to the second temperature and humidity so that the second temperature and humidity are kept at a fourth set value.

In one embodiment, the decontamination vehicle further comprises a camera and a holder, wherein the camera is arranged on the holder; the control module is connected with the camera and the holder and used for receiving the monitoring picture shot by the camera and controlling the rotation of the holder.

In one embodiment, the decontamination vehicle further comprises a waste water bag for storing waste water in the decontamination area, and the system further comprises: the second liquid level meter is arranged in the sewage bag, is connected with the control module, is used for monitoring the liquid level of the sewage bag and sends the liquid level to the control module; the control module is also used for recording the liquid level value of the sewage bag; the control module is further connected with an engine of the decontamination vehicle and used for obtaining and recording operation parameters of the engine.

The decontamination vehicle monitoring system. Through setting up the regional monitoring module that decontaminates to can acquire the first environmental parameter in the regional of decontaminating, be convenient for monitor the regional environment of decontaminating. Through setting up the indicating module, can instruct the state in decontamination area, the user of being convenient for can audio-visually confirm the state in decontamination area. Through the arrangement of the decontamination area adjusting module, the indication state of the indication module can be controlled according to the first environmental parameter monitored by the decontamination area monitoring module, so that a user can rapidly and visually acquire the state in a decontamination area, and the decontamination process can be conveniently executed. And the decontamination area adjusting module can be controlled to adjust the first environmental parameter, so that the environmental comfort degree of a decontamination area is ensured. To sum up, adopt the scheme of this application, can monitor the state of the regional that decontaminates on the car that decontaminates to send the signal of suggestion and adjust environmental parameter according to the state in the regional that decontaminates, thereby the user of being convenient for carries out the flow of decontaminating according to the signal of suggestion, improves the decontamination efficiency of the car that decontaminates, can also guarantee the environmental comfort level of the car that decontaminates.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments or the conventional technologies of the present application, the drawings used in the descriptions of the embodiments or the conventional technologies will be briefly introduced below, it is obvious that the drawings in the following descriptions are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a decontamination vehicle monitoring system in one embodiment;

FIG. 2 is a schematic diagram of a decontamination vehicle monitoring system in another embodiment.

Description of reference numerals: 10-a decontamination area monitoring module, 20-an indicating module, 30-a decontamination area adjusting module, 40-a control module, 100-a decontamination area, 101-a local compartment, 102-a whole body compartment, 11-a first air pressure transmitter, 12-a first temperature and humidity transmitter, 13-an indicating button, 14-an ultrasonic sensor, 21-a local compartment state indicating lamp, 22-a whole body compartment state indicating lamp, 23-a loudspeaker, 31-a first heat pump unit, 50-a water tank, 51-a water pump, 52-a water tank parameter monitoring module, 53-a heater, 300-a water reservoir, 54-a first liquid level meter, 55-a temperature sensor, 200-a placement area, 60-a placement area monitoring module, 61-a placement area adjusting module, 62-a second air pressure transmitter, 63-a second temperature and humidity transmitter, 64-a second heat pump unit, 70-a camera, 71-a cradle head, 72-a sewage bag, 73-an engine, 74-a second liquid level meter.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Embodiments of the present application are set forth in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

It will be understood that, as used herein, the terms "first," "second," and the like may be used herein to describe various elements, but these elements are not limited by these terms. These terms are only used to distinguish one element from another.

Spatial relational terms, such as "under," "below," "under," "over," and the like may be used herein to describe one element or feature's relationship to another element or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements or features described as "below" or "beneath" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary terms "under" and "under" can encompass both an orientation of above and below. In addition, the device may comprise additional orientations (e.g., rotated 90 degrees or other orientations) and the spatial descriptors used herein interpreted accordingly.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or be connected to the other element through intervening elements. In addition, "connection" in the following embodiments is understood to mean "electrical connection", "communication connection", and the like if there is a transfer of electrical signals or data between the connected objects.

As used herein, the singular forms "a", "an" and "the" may include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises/comprising," "includes" or "including," etc., specify the presence of stated features, integers, steps, operations, components, parts, or combinations thereof, but do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

In one embodiment, as shown in FIG. 1, there is provided a decontamination vehicle monitoring system, the decontamination vehicle including a decontamination area 100, the system comprising: the system comprises a decontamination area monitoring module 10, an indication module 20, a decontamination area adjustment module 30 and a control module 40. Wherein:

the decontamination area monitoring module 10 is disposed in the decontamination area 100, and is configured to acquire a first environmental parameter in the decontamination area 100.

Illustratively, the first environmental parameters include air pressure, temperature and humidity within the decontamination area 100, presence or absence of objects, and the like.

Specifically, the decontamination area 100 is an area provided on a decontamination vehicle for cleaning and disinfecting wounded persons, and illustratively, the decontamination area may be provided with an eye cleaning position, a head cleaning position, a local cleaning position, a whole body spray cleaning position, a liquid change-over switch, a water mixing valve, and a sewage discharge port. An embedded wall type eye washer is arranged at the eye cleaning position. A hair washing chair is arranged on the head washing position. The local cleaning position is provided with a spray brush. The whole body spraying and cleaning position is provided with a shower nozzle. The liquid change-over switch is arranged on a communicating pipeline of the head decontamination, the hand-held spray head and the fixed spray head, and is used for freely switching between the clear water and the decontamination liquid at the head decontamination, the local decontamination and the whole body decontamination positions.

The indication module 20 is used to indicate the status of the decontamination area 100.

Illustratively, the status of the decontamination area 100 may include whether a person is present within the decontamination area 100, whether a first environmental parameter within the decontamination area 100 is within a preset range, and the like.

The decontamination area adjustment module 30 is disposed in the decontamination area 100 and is configured to adjust a first environmental parameter of the decontamination area 100.

Specifically, the decontamination area adjustment module 30 may adjust environmental parameters such as temperature, humidity, and air pressure in the decontamination area 100.

The control module 40 is respectively connected to the decontamination area monitoring module 10, the decontamination area indication module 20, and the decontamination area adjustment module 30, and is configured to control an indication state of the indication module 20 and control the decontamination area adjustment module 30 to adjust a first environmental parameter according to the first environmental parameter monitored by the decontamination area monitoring module 10.

Specifically, a control logic is configured in the control module 40 in advance, and when the first environmental parameter reaches a preset condition, the indication state of the indication module 20 and the working state of the decontamination area adjustment module 30 are controlled. For example, when there is no object in the decontamination area 100, power is supplied to the indication module 20 to facilitate the operation of the indication module 20, and when the temperature in the decontamination area 100 is higher than a set value, power is supplied to the decontamination area adjustment module 30 to facilitate the operation of the decontamination area adjustment module 30. The control here is well known in the art, and the above actions may be implemented by directly integrating configuration logic into the indication module 20 and the decontamination area adjustment module 30 without using a separate control module 40.

Illustratively, the control module 40 may be an industrial tablet computer.

In this embodiment, by setting the decontamination area monitoring module 10, a first environmental parameter in the decontamination area 100 can be obtained, which is convenient for monitoring the environment of the decontamination area 100. By arranging the indicating module 20, the state of the decontamination area 100 can be indicated, so that a user can intuitively determine the state of the decontamination area 100. By arranging the decontamination area adjusting module 30, the indication state of the indication module 20 can be controlled according to the first environmental parameter monitored by the decontamination area monitoring module 10, so that a user can rapidly and intuitively acquire the state in the decontamination area 100, and the decontamination process can be executed conveniently. And can also control the decontamination area adjustment module 30 to adjust the first environmental parameter, thereby ensuring the environmental comfort of the decontamination area 100. To sum up, adopt the scheme of this application, can monitor the state of the regional 100 that decontaminates of decontaminating on the car of decontaminating to send cue signal and adjust environmental parameter according to the state of the regional 100 that decontaminates, thereby the user of being convenient for carries out the flow of decontaminating according to cue signal, improves the decontamination efficiency of the car of decontaminating, can also guarantee the environmental comfort level of the car of decontaminating.

In one embodiment, as shown in fig. 2, the decontamination region 100 includes a local compartment 101 and a whole body compartment 102, and the first environmental parameter includes a first air pressure and a first temperature and humidity.

The decontamination area monitoring module 10 includes: a first air pressure transmitter 11, a first temperature and humidity transmitter 12, an indication button 13 and an ultrasonic sensor 14. Wherein:

the first air pressure transmitter 11 is disposed in the decontamination area 100, and is configured to obtain a first air pressure in the decontamination area 100.

Specifically, by providing the first air pressure transmitter 11, the first air pressure within the decontamination area 100 can be measured. Converting the air pressure into an electric signal, thereby facilitating transmission.

The first temperature and humidity transmitter 12 is disposed in the decontamination area 100, and is configured to obtain a first temperature and humidity in the decontamination area 100.

Specifically, by providing the first temperature/humidity transmitter 12, the first temperature/humidity in the decontamination area 100 can be measured and converted into an electrical signal for transmission.

An indication button 13 is provided in the local compartment 101 for determining whether an object is present in the local compartment 101 according to a user instruction.

Specifically, the indication button 13 is provided in the local compartment 101, and the local compartment 101 is suitable for performing local decontamination on the wounded, so that the wounded is provided with a caregiver who performs decontamination on the wounded, and the caregiver can select whether to press the indication button 13 according to actual conditions, so as to send out a prompt signal to indicate whether an object exists in the local compartment 101. Compared with the ultrasonic sensor 14, the cost of arranging the indication button 13 is lower, and the local compartment 101 is provided with a washing staff, and the washing staff touches the button, so that the indication button can play a role in prompting, and the condition that the indication button 13 is polluted due to the fact that a wounded person touches the button can be avoided.

The ultrasound sensor 14 is disposed within the whole-body compartment 102 for detecting the presence of a subject within the whole-body compartment 102.

Specifically, the wounded person in the whole body compartment 102 needs to be washed and disinfected, so there is no nursing staff, only the wounded person is in the whole body compartment 102, and the wounded person is usually contaminated, so it is necessary to detect the wounded person in a non-contact manner, and by installing the ultrasonic sensor 14, it is possible to detect whether the object is in the whole body compartment 102 in a non-contact manner.

Illustratively, the ultrasonic sensor 14 is capable of converting an ultrasonic signal into an electrical signal, thereby detecting the presence or absence of an object.

Illustratively, a voice prompt speaker is further disposed in the whole body compartment 102 and is also connected to the control module 40, and the control module 40 receives a signal sent by the ultrasonic sensor 14, and if it is determined that a person is present in the whole body compartment 102, controls the voice prompt speaker to play a voice prompt for decontamination operation, thereby prompting the person in the whole body compartment 102 how to perform decontamination operation.

The control module 40 is connected to the first air pressure transmitter 11, the first temperature/humidity transmitter 12, the indication button 13, and the ultrasonic sensor 14, and is configured to control the decontamination area adjustment module 30 to adjust the first temperature/humidity according to the first temperature/humidity, and control the indication state of the indication module 20 according to whether an object exists in the local compartment 101, whether an object exists in the whole body compartment 102, and the first air pressure.

Specifically, the control module 40 can obtain the first temperature and humidity in the decontamination area 100 according to the first temperature and humidity transmitter 12, and is convenient for the control decontamination area adjustment module 30 to adjust the first temperature and humidity, so that the first temperature and humidity in the decontamination area 100 is maintained in a set range, and the comfort level of the object is improved. The control module 40 is also capable of controlling the indication state of the indication module 20 depending on whether a subject is present in the local compartment 101, whether a subject is present in the whole body compartment 102, the first air pressure. Therefore, external personnel can know the state in the decontamination area 100 in time, and the decontamination process is convenient to execute, so that the decontamination efficiency is improved.

Illustratively, the control module 40 is connected to the first air pressure Transmitter 11 and the first temperature/humidity Transmitter 12 through RS485 interfaces, respectively, connected to the indication button 13 through an IO (input/output) interface, and connected to the ultrasonic sensor 14 through a UART (Universal Asynchronous Receiver/Transmitter) interface.

In this embodiment, the first environmental parameter in the decontamination area 100 is monitored, and the indication module 20 and the decontamination area adjustment module 30 are controlled to operate according to the first environmental parameter, so that interconnection and intercommunication among a plurality of units are realized, and the decontamination efficiency is improved.

In one embodiment, with continued reference to fig. 2, the indication module 20 includes: a local compartment status indicator light 21, a whole body compartment status indicator light 22, and a speaker 23.

And a control module 40 respectively connected with the local compartment status indicator light 21, the whole body compartment status indicator light 22 and the whole body compartment loudspeaker 23, and configured to control the local compartment status indicator light 21 to be turned on when a subject is present in the local compartment 101, control the whole body compartment status indicator light 22 to be turned on when a subject is present in the whole body compartment 102, and control the loudspeaker 23 to give an alarm when the first air pressure is outside a preset range.

Exemplarily, the control module 40 is connected to the first air pressure transmitter 11 and the first temperature and humidity transmitter 12 through RS485 interfaces, connected to the local compartment status indicator lamp 21 and the whole body compartment status indicator lamp 22 through IO interfaces, and connected to the speaker 23 through a PWM (Pulse Width Modulation) interface.

Illustratively, an actual decontamination vehicle is used as an example: the decontamination area 100 in the decontamination vehicle comprises a preparation area, a decontamination area and a reinspection area. The state indicating lamps are arranged in the preparation area, the decontamination area and the reinspection area, and wounded persons and working personnel can execute decontamination flow according to the indicating lamps. Every passageway in preparation area is equipped with an pilot lamp outward for whether the suggestion preparation area has the wounded, and after the wounded of preparation area got into and washes the district that disappears, the lamp was put out and is reminded that the preparation area is idle, and the wounded can get into the preparation area. The local compartment 101 of the decontamination area is provided with an indicator light, and staff in the local compartment 101 can prompt the compartment to be free through a button to prompt waiting staff to enter. The whole-body compartment 102 is provided with an indicator light at an entrance of the whole-body compartment 102, and the ultrasonic sensor 14 is provided at the whole-body compartment 102, and the ultrasonic sensor 14 is used for detecting whether a person is present in the whole-body compartment 102. The whole-body compartment 102 is additionally equipped with a re-decontamination status indicator light indicating that the next entering person should be a re-decontaminated person determined to be ineligible for decontamination. The reinspection area is provided with a decontamination status indicator lamp which is arranged at an outlet of the whole body compartment 102 and indicates whether the whole body compartment 102 is occupied or not, and when the wounded person is unqualified in reinspection, the wounded person needs to be decontaminated again. I.e., both the entrance and exit of the whole-body compartment 102, a person who first decontaminates enters the whole-body compartment 102 at the entrance of the whole-body compartment 102, and a person who is determined to be ineligible for decontamination in the review area enters the whole-body compartment 102 at the exit of the whole-body compartment 102.

In this embodiment, the control module 40 may control whether the indicator light and the speaker perform the reminding according to whether the monitored object exists in the decontamination area 100 and the first air pressure in the decontamination area 100. Therefore, external personnel can know the state in the decontamination area 100 in time, and the decontamination process is convenient to execute, so that the decontamination efficiency is improved.

In one embodiment, with continued reference to fig. 2, the decontamination area adjustment module 30 includes: the first heat pump unit 31 is disposed in the decontamination area 100, and is configured to supply heat to the decontamination area 100 when being turned on.

Specifically, the heat pump units can provide heat energy to heat and raise the temperature of the decontamination area 100. And also to spray hot air to adjust the air pressure within the decontamination area 100,

the control module 40 is connected to the first heat pump unit 31, and is configured to control whether the first heat pump unit 31 is turned on according to the first temperature and humidity, so that the first temperature and humidity are maintained at a first set value.

Specifically, a first set value of a first temperature and humidity is preset in the control module 40, and then the first temperature and humidity in the decontamination area 100 is obtained according to the first temperature and humidity transmitter 12. When a user inputs an instruction to enable the control module 40 to start environmental regulation, the control module 40 can control the first heat pump unit 31 to operate according to the first temperature and humidity, and the control module 40 is configured to control the first heat pump unit 31 to start operating when the first temperature and humidity is smaller than a first set value. When the user turns off the environmental regulation of the control module 40, the control module 40 controls the first heat pump unit 31 to turn off.

In one embodiment, with continued reference to fig. 2, the decontamination vehicle further includes a water tank 50, the water tank 50 is connected to a reservoir 300 via a suction pump 51, the water tank 50 is used for supplying water to the decontamination area 100, and the system further includes: a tank parameter monitoring module 52 and a heater 53. Wherein:

a tank parameter monitoring module 52 is disposed within the tank 50 for monitoring parameters of the tank 50. Among the parameters of the water tank 50 are a water level of the water tank 50, a temperature of the water tank 50, and the like.

The heater 53 is disposed in the water tank 50 for heating the water tank 50.

The control module 40 is respectively connected to the water tank parameter monitoring module 52, the water pump 51 and the heater 53, and is configured to control the operating state of the water pump 51 and the operating state of the heater 53 according to the parameters of the water tank 50.

Specifically, the control module 40 can acquire parameters in the water tank 50 through the water tank parameter monitoring module 52, and then control the water pump 51 and the heater 53 to operate according to the acquired parameters, so as to adjust the parameters of the water tank 50.

Illustratively, the decontamination flow of the spray system within the decontamination area 100 is exemplified. First, the spray head sprays the decontamination solution for one minute. Then, the reaction was stopped for 5 seconds, and spraying of clean water was started for one minute. Namely, one cleaning is completed.

In this embodiment, the parameters in the water tank 50 are obtained by the water tank parameter monitoring module 52, and the control module 40 controls the operation of the water pump 51 and the heater 53 according to the parameters in the water tank 50 to adjust the parameters of the water tank 50. Thereby ensuring that the parameters of the water tank 50 are normal.

In one embodiment, continuing with reference to FIG. 2, tank parameter monitoring module 52 includes: a first level gauge 54, a temperature sensor 55. Wherein:

a first level gauge 54 is provided in the water tank 50 for measuring a water level of the water tank 50.

The temperature sensor 55 is disposed in the water tank 50 to measure the temperature of water in the water tank 50.

The control module 40 is connected to a first liquid level meter 54 and a temperature sensor 55, respectively, for controlling the operation of the suction pump 51 to maintain the water level of the water tank 50 at a second set value according to the water level of the water tank 50, and controlling the operation of the heater 53 to maintain the water temperature of the water tank 50 at a third set value according to the water temperature of the water tank 50.

Specifically, when the control module 40 receives that the water level of the water tank 50 measured by the first liquid level meter 54 is lower than the second set value, the control module controls the water pump 51 to start pumping water from the water reservoir into the water tank 50, and raises the water level of the water tank 50 so that the water level of the water tank 50 is maintained at the second set value. When the control module 40 receives that the water temperature of the water tank 50 measured by the temperature sensor 55 is lower than the third set value, the control module controls the heater 53 to be activated to heat the water in the water tank 50 until the water temperature of the water tank 50 is maintained at the third set value.

In this embodiment, the second set value and the third set value are pre-configured in the control module 40, and the control module 40 controls whether the suction pump 51 starts to operate and whether the heater 53 starts to operate according to the water level of the water tank 50 measured by the first liquid level meter 54 and the water temperature of the water tank 50 measured by the temperature sensor 55.

In one embodiment, continuing with FIG. 2, the decontamination vehicle further includes a placement area 200, and the system further includes: a setting region monitoring module 60 and a setting region adjusting module 61. Wherein:

the installation area monitoring module 60 is disposed in the installation area 200 for acquiring a second environmental parameter in the installation area 200.

The placement area adjustment module 61 is configured to adjust a second environment parameter of the placement area 200.

Illustratively, the second environmental parameters include air pressure, temperature, humidity, and the like within the decontamination area 100.

The control module 40 is connected to the installation area monitoring module 60 and the installation area adjusting module 61, respectively, and is configured to adjust the second environmental parameter of the installation area 200 according to the second environmental parameter monitored by the installation area monitoring module 60.

Specifically, the control module 40 is configured with control logic in advance, and when the second environment parameter reaches a preset condition, the control logic controls the operating state of the installation area adjusting module 61. For example, when the ambient temperature is low, the control-placement-area adjustment module 61 starts heating, and the like. The control here is well known in the art, and the above actions may be implemented by directly integrating configuration logic into the indication module 20 and the decontamination area adjustment module 30 without using a separate control module 40.

The accommodation area 200 is illustratively a rear tent compartment on a decontamination vehicle for accommodating decontaminated personnel. Normally, the air pressure in the containment region 200 is greater than the air pressure in the decontamination region 100. If the air pressure in the installation area 200 is less than the air pressure in the decontamination area 100, this indicates that the decontamination system in the decontamination area 100 may be malfunctioning, and the control module 40 issues an indication.

In this embodiment, the installation region monitoring module 60 can obtain the second environmental parameter in the installation region 200, and then the control module 40 controls the installation region adjusting module 61 to operate according to the second environmental parameter to adjust the second environmental parameter in the installation region 200, so as to maintain the environmental comfort level in the installation region 200.

In one embodiment, please continue to refer to fig. 2, the second environmental parameter includes a second air pressure and a second temperature and humidity.

The placement area monitoring module 60 includes: a second air pressure transmitter 62, a second temperature and humidity transmitter 63.

The second air pressure transmitter 62 is disposed in the installation area 200 for acquiring a second air pressure in the installation area 200.

The second temperature and humidity transmitter 63 is disposed in the installation area 200, and is configured to obtain a second temperature and humidity in the installation area 200.

The placement area adjustment module 61 includes: and the second heat pump unit 64 is used for supplying heat to the decontamination area 100 when the second heat pump unit is started.

The control module 40 is connected to the second air pressure transmitter 62, the second temperature and humidity transmitter 63, and the second heat pump unit 64, respectively, and is configured to record the second air pressure and control whether the second heat pump unit 64 is turned on according to the second temperature and humidity, so that the second temperature and humidity are maintained at a fourth set value.

Specifically, the control module 40 can obtain the second temperature and humidity in the installation area 200 according to the second temperature and humidity transmitter 63, so as to control the second heat pump unit 64 to adjust the second temperature and humidity to a preset fourth set value, so that the second temperature and humidity in the installation area 200 is maintained in a set range, and the comfort level of the object is improved. Control module 40 is also capable of monitoring the air pressure within the mounting area 200 by acquiring a second air pressure within the mounting area 200 via a second air pressure transducer 62. Thereby facilitating maintaining a comfortable environment within the seating area 200.

In the present embodiment, comfort of the placement area 200 is ensured by monitoring the environmental parameters in the placement area 200 and adjusting the environmental parameters in the placement area 200.

In one embodiment, with continued reference to fig. 2, the decontamination vehicle further includes a camera 70 and a pan-tilt 71, wherein the camera 70 is disposed on the pan-tilt 71.

The control module 40 is connected with the camera 70 and the pan/tilt head 71, and is configured to receive a monitoring picture captured by the camera 70 and control the pan/tilt head 71 to rotate.

In the embodiment, the camera 70 and the holder 71 are arranged, so that a user can conveniently monitor the condition in the decontamination vehicle at any time.

In one embodiment, with continued reference to FIG. 2, the decontamination vehicle further includes a waste water bag 72 for storing waste water within the decontamination area 100, and the system further includes: and the second liquid level meter 74 is arranged in the sewage bag 72, is connected with the control module 40, and is used for monitoring the liquid level of the sewage bag 72 and sending the liquid level to the control module 40.

Specifically, the sewage bag 72 is connected to a drain of the decontamination area 100 for storing sewage within the decontamination area 100.

The control module 40 is also used for recording the liquid level value of the sewage bag 72.

Specifically, the control module 40 can obtain the liquid level of the sewage bag 72 according to the second liquid level meter 74, and record the liquid level to remind the user, so that the user can observe and replace the sewage bag 72 with a new one.

The control module 40 is also connected to the engine 73 of the decontamination vehicle for obtaining and recording operating parameters of the engine 73.

Illustratively, the operating parameters of the engine 73 include engine 73 speed, torque, power, and the like.

In this embodiment, the control module 40 monitors the status of the motor 73 and the water level of the waste water bag 72, so that the user can visually observe the liquid level of the waste water bag 72 and the status of the motor 73.

In one embodiment, the user may preset the amount of decontamination materials in the control module 40, and the control module 40 is further configured to record the amount of the remaining decontamination materials according to the registered amount of decontamination personnel and the amount of decontamination materials.

Specifically, the decontamination materials include towels, clean clothes, sampling swabs, sampling test tubes, and the like.

In this embodiment, the control module 40 can determine whether the material is enough according to the number of the decontamination personnel and the number of the material, so as to prompt the user to supply the material.

In the description herein, references to the description of "some embodiments," "other embodiments," "desired embodiments," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, a schematic description of the above terminology may not necessarily refer to the same embodiment or example.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, and these are all within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A decontamination vehicle monitoring system, wherein the decontamination vehicle includes a decontamination area, the system comprising:

the decontamination area monitoring module is arranged in the decontamination area and used for acquiring a first environmental parameter in the decontamination area;

the indicating module is used for indicating the state of the decontamination area;

the decontamination area adjusting module is arranged in the decontamination area and is used for adjusting a first environment parameter of the decontamination area;

and the control module is respectively connected with the decontamination area monitoring module, the decontamination area indicating module and the decontamination area adjusting module and is used for controlling the indicating state of the indicating module and controlling the decontamination area adjusting module to adjust the first environmental parameters according to the first environmental parameters monitored by the decontamination area monitoring module.

2. The system of claim 1, wherein the decontamination region comprises a local compartment and a whole body compartment, the first environmental parameter comprises a first air pressure and a first temperature and humidity;

the decontamination area monitoring module comprises:

the first air pressure transmitter is arranged in the decontamination area and used for acquiring first air pressure in the decontamination area;

the first temperature and humidity transmitter is arranged in the decontamination area and is used for acquiring a first temperature and humidity in the decontamination area;

an indication button arranged in the local compartment and used for determining whether an object exists in the local compartment according to a user instruction;

an ultrasound sensor disposed within the whole-body compartment for detecting the presence of a subject within the whole-body compartment;

the control module is respectively connected with the first air pressure transmitter, the first temperature and humidity transmitter, the indicating button and the ultrasonic sensor, and is used for controlling the decontamination area adjusting module to adjust the first temperature and humidity according to the first temperature and humidity, and controlling the indicating state of the indicating module according to whether an object exists in the local compartment or not, whether an object exists in the whole body compartment or not and the first air pressure.

3. The system of claim 2, wherein the indication module comprises: local compartment state indicator light, whole body compartment state indicator light, speaker;

the control module is respectively connected with the local compartment state indicator lamp, the whole body compartment state indicator lamp and the whole body compartment loudspeaker, and is used for controlling the local compartment state indicator lamp to be turned on when an object exists in the local compartment, controlling the whole body compartment state indicator lamp to be turned on when an object exists in the whole body compartment, and controlling the loudspeaker to give an alarm when the first air pressure is out of a preset range.

4. The system of claim 2, wherein the decontamination region adjustment module comprises:

the first heat pump unit is arranged in the decontamination area and used for supplying heat to the decontamination area when the first heat pump unit is started;

the control module is connected with the first heat pump unit and used for controlling whether the first heat pump unit is started or not according to the first temperature and humidity so as to keep the first temperature and humidity at a first set value.

5. The system of claim 1, wherein the decontamination vehicle further comprises a water tank connected to a reservoir via a suction pump, the water tank being configured to supply water to the decontamination area, the system further comprising:

the water tank parameter monitoring module is arranged in the water tank and used for monitoring parameters of the water tank;

the heater is arranged in the water tank and used for heating the water tank;

the control module is respectively connected with the water tank parameter monitoring module, the water suction pump and the heater and used for controlling the working state of the water suction pump and the working state of the heater according to the parameters of the water tank.

6. The system of claim 5, wherein the tank parameter monitoring module comprises:

the first liquid level meter is arranged in the water tank and used for measuring the water level of the water tank;

the temperature sensor is arranged in the water tank and used for measuring the water temperature of the water tank;

the control module is respectively connected with the first liquid level meter and the temperature sensor and used for controlling the water suction pump to work according to the water level of the water tank so as to keep the water level of the water tank at a second set value, and controlling the heater to work according to the water temperature of the water tank so as to keep the water temperature of the water tank at a third set value.

7. The system of claim 1, wherein the decontamination vehicle further comprises a seating area, the system further comprising:

the arrangement area monitoring module is arranged in the arrangement area and used for acquiring second environmental parameters in the arrangement area;

the arrangement area adjusting module is used for adjusting a second environment parameter of the arrangement area;

the control module is respectively connected with the arrangement area monitoring module and the arrangement area adjusting module and is used for adjusting the second environmental parameters of the arrangement area according to the second environmental parameters monitored by the arrangement area monitoring module.

8. The system of claim 7, wherein the second environmental parameter comprises a second air pressure and a second temperature and humidity;

the disposition region monitoring module includes:

the second air pressure transmitter is arranged in the mounting area and used for acquiring second air pressure in the mounting area;

the second temperature and humidity transmitter is arranged in the arrangement area and used for acquiring a second temperature and humidity in the arrangement area;

the mounting region adjustment module includes:

the second heat pump unit is used for supplying heat to the decontamination area when the second heat pump unit is started;

the control module is respectively connected with the second air pressure transmitter, the second temperature and humidity transmitter and the second heat pump unit and is used for recording the second air pressure and controlling whether the second heat pump unit is started or not according to the second temperature and humidity so as to keep the second temperature and humidity at a fourth set value.

9. The system of claim 1, wherein the decontamination cart further comprises a camera, a pan-tilt, the camera disposed on the pan-tilt;

the control module is connected with the camera and the holder and used for receiving the monitoring picture shot by the camera and controlling the rotation of the holder.

10. The system of claim 1, wherein the decontamination vehicle further comprises a waste water bag for storing waste water within the decontamination area, the system further comprising:

the second liquid level meter is arranged in the sewage bag, is connected with the control module, is used for monitoring the liquid level of the sewage bag and sends the liquid level to the control module;

the control module is also used for recording the liquid level value of the sewage bag;

the control module is further connected with an engine of the decontamination vehicle and used for obtaining and recording operation parameters of the engine.

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