CN219180035U - Monitoring system - Google Patents

Abstract

The application discloses monitored control system relates to the technical field of spraying paint. A monitoring system, comprising: a spray booth; the sensor module is arranged on the inner wall of the paint spray booth and is used for detecting the temperature and the humidity in the paint spray booth; the gas detection device is used for detecting the VOC concentration of the waste gas generated during paint spraying; a process monitoring device for monitoring an operating process in the spray booth; the warning operation device is used for carrying out warning indication; the control system is respectively in communication connection with the sensor module, the gas detection device, the process monitoring device and the warning operation device, and is used for acquiring temperature, humidity, VOC concentration or signal control information in the operation process so as to control the warning operation device. The paint spray booth can monitor more factors, can monitor the complete process of paint spraying, and can timely treat related problems.

Description

Monitoring system

Technical Field

The application relates to the technical field of paint spraying, in particular to a monitoring system.

Background

In the related art, the paint spraying procedure can be more safely and efficiently finished by the paint spraying room. However, the paint spraying environment in the paint spray booth is severe, and the paint spraying process is relatively high in requirement, so that the paint spraying process (including before and after paint spraying and during paint spraying) in the paint spray booth needs to be monitored, thereby timely finding abnormality and quickly reminding and controlling, and further avoiding serious problems. At present, the existing monitoring system is used for simply monitoring the temperature and toxic gas generated during paint spraying in a paint spray booth, on one hand, only one factor or two is simply monitored, and simple information reminding is provided, the monitoring information is single, and when an emergency beyond the monitored factor occurs, the emergency can not be processed in time; on the other hand, the existing monitoring system does not monitor the whole process of paint spraying (before and after paint spraying and during paint spraying), so that the monitoring of the whole process of paint spraying is omitted, and certain potential safety hazards exist.

Disclosure of Invention

The present application aims to solve at least one of the technical problems existing in the prior art. Therefore, the application provides a monitoring system, which can monitor more factors of a paint spray booth, can monitor the complete process of paint spraying, and alarms according to the monitoring result so as to timely treat related problems.

According to an embodiment of the present application, a monitoring system includes:

a spray booth;

the sensor module is arranged on the inner wall of the paint spray booth and is used for detecting the temperature and the humidity in the paint spray booth;

the gas detection device is used for detecting the VOC concentration of the waste gas generated during paint spraying;

process monitoring means for monitoring an operational process within the spray booth;

the warning operation device is used for carrying out warning indication;

the control system is respectively in communication connection with the sensor module, the gas detection device, the process monitoring device and the warning operation device, and is used for acquiring the temperature, the humidity, the VOC concentration or the signal control information in the operation process so as to control the warning operation device.

The monitoring system according to the embodiment of the application has at least the following beneficial effects: by arranging the sensor module, the gas detection device, the process monitoring device and the warning operation device, the monitoring system can monitor the temperature, the humidity, the VOC concentration and the emergency in the operation process respectively, and compared with the monitoring of the temperature and the gas, the monitoring system can monitor the humidity and the emergency, thereby more comprehensively monitoring factors of a spray booth; meanwhile, by arranging the control system, the control system controls the warning operation device to carry out warning indication according to the monitored factors, so that related personnel can timely process the problem corresponding to the warning indication, and the processing speed of the problem is improved. Therefore, the monitoring system of the embodiment of the application can monitor more factors of the paint spray booth, can monitor the complete process of paint spraying, and gives an alarm according to the monitoring result so as to treat related problems in time.

According to some embodiments of the present application, the sensor module comprises a temperature sensor and a humidity sensor, the temperature sensor is mounted on the top wall inside the paint spray booth, the humidity sensor is mounted on the wall inside the paint spray booth, the control system is respectively in communication connection with the temperature sensor and the humidity sensor, the temperature sensor is used for detecting the temperature inside the paint spray booth, and the humidity sensor is used for detecting the humidity inside the paint spray booth.

According to some embodiments of the present application, the spray booth is provided with an air outlet pipeline, the monitoring system further comprises an exhaust gas treatment device, the air outlet pipeline is communicated with the spray booth and the exhaust gas treatment device, the air outlet pipeline is used for discharging exhaust gas in the spray booth, and the exhaust gas treatment device is used for filtering the exhaust gas.

According to some embodiments of the present application, the gas detection device includes a first sampling line, a second sampling line, a first VOC gas detector, a second VOC gas detector; the air outlet pipeline and the first VOC gas detector are communicated through the first sampling pipeline, and the first VOC gas detector is used for detecting the VOC concentration of the waste gas in the air outlet pipeline through the first sampling pipeline; the waste gas treatment device is provided with an exhaust pipeline, the exhaust pipeline is communicated with the second VOC gas detector through a second sampling pipeline, and the second VOC gas detector is used for detecting the VOC concentration of the gas filtered by the waste gas treatment device through the second sampling pipeline.

According to some embodiments of the application, the monitoring system further comprises an air supply device and an air exhaust device, an air inlet chamber is arranged at the top of the paint spray booth, the air supply device and the paint spray booth are communicated through the air inlet chamber, and the air supply device is used for supplying air to the paint spray booth through the air inlet chamber; the exhaust device is arranged between the waste gas treatment device and the exhaust pipeline and is respectively communicated with the waste gas treatment device and the exhaust pipeline, and the exhaust device is used for exhausting air through the exhaust pipeline.

According to some embodiments of the present application, the control system includes an operation console, a display and a controller, the operation console bottom is provided with a control cabinet, the controller is installed in the control cabinet, the display is set up in on the operation console, the controller respectively with the sensor module, the gas detection device, the process monitoring device, the warning operation device, the display communication connection.

According to some embodiments of the present application, the controller is in communication with the temperature sensor, the humidity sensor, the first VOC gas detector, the second VOC gas detector, respectively; the controller is used for acquiring the temperature according to the temperature sensor and controlling the warning operation device according to the temperature, acquiring the humidity according to the humidity sensor and controlling the warning operation device according to the humidity, processing a first VOC concentration value acquired by the first VOC gas detector and a second VOC concentration value acquired by the second VOC gas detector, and controlling the warning operation device according to a processing result; the controller is also used for controlling the display to display an alarm prompt according to the acquired temperature, controlling the display to display the alarm prompt according to the acquired humidity, controlling the display to display the processing result, and controlling the display to display the alarm prompt according to the processing result.

According to some embodiments of the application, the control system further comprises a server and a communication module, wherein the communication module is installed in the control cabinet and is respectively in communication connection with the controller and the server.

According to some embodiments of the application, the number of the process monitoring devices is two, and the two process monitoring devices are respectively installed on the inner top wall of the paint spray booth and are arranged in a pair angle manner; the number of the warning operation devices is two, and the two warning operation devices are respectively arranged on the inner wall and the outer wall of the spray booth.

According to some embodiments of the application, the monitoring system further comprises a heating device for heating the spray booth, the control system is in communication with the heating device and controls the heating device according to temperature.

Additional aspects and advantages of the application will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the application.

Drawings

The application is further described with reference to the accompanying drawings and examples, in which:

fig. 1 is a schematic structural diagram of a monitoring system according to an embodiment of the present application;

FIG. 2 is a cross-sectional view of the monitoring system provided in the embodiment of the present application of FIG. 1;

fig. 3 is a schematic structural diagram of another view of the monitoring system according to the embodiment of the present application shown in fig. 1.

Reference numerals:

paint spray booth 100, air inlet booth 110;

a sensor module 200, a temperature sensor 210, and a humidity sensor 220;

a first sampling line 310;

an air supply device 410 and an air exhaust device 420;

an exhaust gas treatment device 500;

process monitoring device 600;

alert operation device 700;

control system 800, console 810, display 820, control cabinet 830;

heating device 900.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

It should be noted that although functional block diagrams are depicted as block diagrams, and logical sequences are shown in the flowchart, in some cases, the steps shown or described may be performed in a different order than the block diagrams in the system. The terms and the like in the description and in the claims, and in the above-described drawings, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

In the description of the present application, the meaning of a number is one or more, the meaning of a number is two or more, and greater than, less than, exceeding, etc. are understood to exclude the present number, and the meaning of a number above, below, within, etc. are understood to include the present number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present application, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present application can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical solution.

In the description of the present application, a description with reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means 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 present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

A monitoring system according to an embodiment of the present application is described below with reference to fig. 1-3.

As can be appreciated, as shown in fig. 1 and 2, there is provided a monitoring system comprising:

a spray booth 100;

the sensor module 200 is installed on the inner wall of the spray booth 100 and is used for detecting the temperature and humidity in the spray booth 100;

the gas detection device is used for detecting the VOC concentration of the waste gas generated during paint spraying;

a process monitoring device 600, the process monitoring device 600 being used to monitor the operational process within the spray booth 100;

the warning operation device 700, the warning operation device 700 is used for giving warning indication;

the control system 800, the control system 800 is respectively in communication connection with the sensor module 200, the gas detection device, the process monitoring device 600 and the warning operation device 700, and the control system 800 is used for acquiring temperature, humidity, VOC concentration or signal control information in the operation process to control the warning operation device 700.

By arranging the sensor module 200, the gas detection device, the process monitoring device 600 and the warning operation device 700, the monitoring system can monitor the temperature, the humidity, the VOC concentration and the emergency in the operation process respectively, and compared with the monitoring of the temperature and the gas only, the monitoring of the humidity and the emergency can be realized, so that the paint spray booth 100 can be monitored by more comprehensive factors; meanwhile, by arranging the control system 800, the control system 800 controls the warning operation device 700 to carry out warning indication according to the monitored factors, so that related personnel can timely process the problem corresponding to the warning indication, and the processing speed of the problem is improved. Therefore, the monitoring system of the embodiment of the application can monitor more factors of the paint spray booth 100, can monitor the complete process of paint spraying, and can give an alarm according to the monitoring result so as to timely treat related problems.

It will be appreciated that the sensor module 200 includes a temperature sensor 210 and a humidity sensor 220, the temperature sensor 210 is mounted on an inner ceiling wall of the paint spray booth 100, the humidity sensor 220 is mounted on an inner wall of the paint spray booth 100, the control system 800 is respectively in communication connection with the temperature sensor 210 and the humidity sensor 220, the temperature sensor 210 is used for detecting the temperature inside the paint spray booth 100, and the humidity sensor 220 is used for detecting the humidity inside the paint spray booth 100.

As shown in fig. 2, the temperature sensor 210 is installed at the center of the roof in the spray booth 100, and can detect the temperature in the spray booth 100 in real time.

As shown in fig. 2, the humidity sensor 220 is installed on the inner wall surface of the paint spray booth 100, and is installed in a wall-mounted manner, so as to be capable of detecting the humidity in the paint spray booth 100 in real time.

It will be appreciated that the paint spray booth 100 is provided with an air outlet pipe, the monitoring system further comprises an exhaust gas treatment device 500, the air outlet pipe is communicated with the paint spray booth 100 and the exhaust gas treatment device 500, the air outlet pipe is used for discharging exhaust gas in the paint spray booth 100, and the exhaust gas treatment device 500 is used for filtering the exhaust gas.

It will be appreciated that as shown in fig. 3, the gas detection device includes a first sampling line 310, a second sampling line, a first VOC gas detector, a second VOC gas detector; the air outlet pipeline and the first VOC gas detector are communicated through a first sampling pipeline 310, and the first VOC gas detector is used for detecting the VOC concentration of the waste gas in the air outlet pipeline through the first sampling pipeline 310; the exhaust gas treatment device 500 is provided with an exhaust pipeline, the exhaust pipeline and a second VOC gas detector are communicated through a second sampling pipeline, and the second VOC gas detector is used for detecting the VOC concentration of the gas filtered by the exhaust gas treatment device 500 through the second sampling pipeline.

The VOC gas detection device comprises a sampling tube assembly and a VOC gas detector, wherein the sampling tube assembly can be understood as a sampling pipeline, and gas passes through the sampling tube, the pipeline and the VOC gas detector.

The number of VOC gas detection devices is two, and the VOC gas detection devices are divided into two groups before and after treatment. The sampling tube assembly of the VOC gas detection device before treatment is arranged at the center of the air outlet of the underground exhaust chamber in the paint spray booth 100, the sampling tube assembly of the VOC gas detection device after treatment is arranged at the middle position of the exhaust tube after treatment, and the VOC gas detectors are all arranged in the control cabinet 830.

The VOC gas detection device can detect the VOC concentration of the exhaust gas before and after the treatment of the paint spray booth 100 in real time, detect the VOC concentration of the exhaust gas, and determine whether the exhaust gas reaches the standard and the environmental protection exhaust gas treatment efficiency; wherein, environmental protection waste gas treatment efficiency=/concentration before treatment.

It can be understood that, as shown in fig. 1 and 3, the monitoring system further includes an air supply device 410 and an air exhaust device 420, the top of the paint spray booth 100 is provided with an air inlet chamber 110, the air supply device 410 and the paint spray booth 100 are communicated through the air inlet chamber 110, and the air supply device 410 is used for supplying air to the paint spray booth 100 through the air inlet chamber 110; the exhaust device 420 is disposed between the exhaust gas treatment device 500 and the exhaust pipeline, and is respectively connected to the exhaust gas treatment device 500 and the exhaust pipeline, and the exhaust device 420 is used for exhausting air through the exhaust pipeline.

The ventilation device includes an air supply device 410 and an air exhaust device 420, both of which are installed outside the paint spray booth 100, the air supply device 410 supplies air to the top air intake chamber 110 in the paint spray booth, and the air exhaust device 420 draws air in the paint spray booth 100 from the underground air exhaust chamber. The trend of the air flow is as follows: outdoor air-air supply device 410-roof air inlet chamber 110-paint spray booth 100-underground exhaust chamber-waste gas treatment device 500-exhaust device 420-exhaust pipeline-outdoor.

It will be appreciated that as shown in fig. 1 and 3, the control system 800 includes an operation console 810, a display 820 and a controller, the control console 830 is disposed at the bottom of the operation console 810, the controller is installed in the control console 830, the display 820 is disposed on the operation console 810, and the controller is respectively in communication connection with the sensor module 200, the gas detection device, the process monitoring device 600, the warning operation device 700 and the display 820.

It should be noted that, the controller is installed in the control cabinet 830 to control the system, receive, store, analyze the detected data, process the data by the controller to generate a control instruction, control the ventilation device, the heating device 900, and the warning operation device 700, and share the data through the communication module.

It will be appreciated that the controller is in communication with the temperature sensor 210, the humidity sensor 220, the first VOC gas detector, the second VOC gas detector, respectively; the controller is used for acquiring the temperature according to the temperature sensor 210 and controlling the warning operation device 700 according to the temperature, acquiring the humidity according to the humidity sensor 220 and controlling the warning operation device 700 according to the humidity, processing a first VOC concentration value acquired by the first VOC gas detector and a second VOC concentration value acquired by the second VOC gas detector, and controlling the warning operation device 700 according to the processing result; the controller is further configured to control the display 820 to display an alarm according to the acquired temperature, control the display 820 to display an alarm according to the acquired humidity, control the display 820 to display a processing result, and control the display 820 to display an alarm according to the processing result.

It will be appreciated that the control system 800 further includes a server and a communication module, wherein the communication module is installed in the control cabinet 830, and the communication module is respectively in communication connection with the controller and the server, and the controller is configured to transmit the video monitored by the process monitoring device 600 to the server for storage through the communication module.

It should be noted that, the communication module is installed in the control cabinet 830, connected to the display 820 and the server, and performs data interaction with the factory terminal and the client terminal. The communication module can receive the control instruction of the operator in real time and share the data according to the requirement. The factory terminal is a factory site operation and management system and other screen display equipment; the client terminal is a mobile phone of an automobile owner.

It will be appreciated that there are two process monitoring devices 600, and that the two process monitoring devices 600 are mounted to the interior ceiling of the spray booth 100, respectively, and are disposed diagonally; the number of the warning operation devices 700 is two, and the two warning operation devices 700 are respectively installed on the inner wall and the outer wall of the spray booth 100.

The two process monitoring devices 600 are installed on the roof of the paint spray booth 100 and are installed diagonally to the roof, respectively, so that the process can be monitored in real time.

It will be appreciated that the monitoring system further comprises a heating device 900, the heating device 900 being adapted to heat the spray booth 100, the control system 800 being in communication with the heating device 900 and controlling the heating device 900 in dependence on temperature.

The heating device 900 is installed on the left and right walls of the paint spray booth 100, and each side 6 can supply heat to the paint spray booth 100 to dry the paint on the sheet metal of the automobile.

The following describes the specific operation of the monitoring system of the present application.

1 temperature detection control

In this embodiment, the operator sets the paint temperature upper and lower limits and the baking finish temperature value according to the need. The temperature sensor 210 detects the temperature value in the spray booth 100 in real time and sends the temperature value to the controller.

And (3) paint spraying: the controller analyzes and compares whether the real-time temperature value is within the upper limit value and the lower limit value of the paint spraying temperature, if the real-time temperature value exceeds the range, the controller controls the warning operation device 700 in the paint spraying room 100 to carry out warning indication, controls the display 820 to prompt temperature overrun warning, prompts operators to start the heating device 900 to heat when the temperature is too low, and prompts operators to start the air supplying and exhausting device 420 to cool when the temperature is too high.

And (3) baking finish step: the controller analyzes whether the real-time value of the comparative temperature is larger than the baking finish temperature value, if the temperature is too low, the heating device 900 is started to heat, and if the temperature is too high, the heating device 900 is closed, so that the baking finish process is maintained in a constant temperature range.

2 humidity detection control

In this embodiment, the operator sets the upper and lower limits of paint spray humidity as required. Humidity sensor 220 detects the humidity level in spray booth 100 in real time and sends it to the controller.

And (3) paint spraying: the controller analyzes whether the real-time value of the comparative humidity is within the upper limit value and the lower limit value of the paint spraying humidity, if the real-time value of the comparative humidity is out of the range, the controller alarms and indicates at the paint spray booth 100 by the warning operation device 700, and controls the display 820 to prompt the excessive humidity and alarm, and the excessive humidity prompts the operator to perform humidification treatment, and the excessive humidity prompts the operator to start the heating and ventilation device for dehumidification.

3VOC detection control

In the present embodiment, the worker sets the VOC gas treatment efficiency threshold and the VOC gas concentration threshold in the exhaust gas according to the demand. The VOC gas detection device detects the VOC gas concentration value in the paint spray booth 100 and the VOC concentration value when the exhaust gas treatment device 500 is discharged after treatment in real time, and sends the detected VOC gas concentration value to the controller. The controller analyzes and compares the two real-time detection values, and calculates the VOC gas treatment efficiency of the exhaust gas treatment apparatus 500. The controller analyzes and compares the VOC gas concentration threshold value and the detection value in the discharged waste gas, and analyzes and compares the VOC gas treatment efficiency threshold value and the real-time treatment efficiency value. The result is displayed on the display 820, when the real-time value is larger than the set value, an alarm is generated, the controller controls the alarm operation device 700 to give an alarm indication, and controls the display 820 to prompt the VOC emission concentration overrun alarm or the processing efficiency overrun. The operation personnel can in time check the waste gas treatment device 500, change waste gas treatment consumptive materials etc. according to the alarm reason, avoid polluting surrounding environment and influencing personnel's health.

The VOC concentration value, VOC treatment efficiency value, and temperature of the exhaust gas are stored in the controller, and the record is displayed on the operator operation display 820, so that the operator can easily trace and view the record.

The VOC gas detection apparatus may also employ a VOC gas concentration sensor.

4 Process monitoring control

In this embodiment, the paint spraying operator inputs the job work order number and the paint spraying state on the display 820, and the controller transmits the work order spraying state to the server through the communication module, so as to share each level of factory and automobile clients, and each level of personnel checks as required, thereby bringing more efficient factory operation management and better client experience.

The process monitoring device 600 photographs the paint spraying process and the paint baking process in real time, and the controller correlates the real-time photographing with the work order number and transmits the real-time photographing to a local server through a communication module, so that the real-time photographing is shared to each level of factories and automobile clients to view according to the weight.

It should be noted that the controller may be configured to monitor image events, such as personnel abnormality in the spray booth 100, such as falling off and fire image event recognition, and to detect personnel conditions during paint spraying and fire in real time during paint baking. If a fire occurs, the heating device 900 is timely warned and turned off. Meanwhile, the shot video is stored and recorded in a storage module of the controller, so that traceability management is facilitated.

The embodiments of the present application have been described in detail above with reference to the accompanying drawings, but the present application is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present application. Furthermore, embodiments of the present application and features of the embodiments may be combined with each other without conflict.

Claims (10)

1. A monitoring system, comprising:

a spray booth;

the sensor module is arranged on the inner wall of the paint spray booth and is used for detecting the temperature and the humidity in the paint spray booth;

the gas detection device is used for detecting the VOC concentration of the waste gas generated during paint spraying;

process monitoring means for monitoring an operational process within the spray booth;

the warning operation device is used for carrying out warning indication;

the control system is respectively in communication connection with the sensor module, the gas detection device, the process monitoring device and the warning operation device, and is used for acquiring the temperature, the humidity, the VOC concentration or the signal control information in the operation process so as to control the warning operation device.

2. The monitoring system of claim 1, wherein the sensor module comprises a temperature sensor and a humidity sensor, the temperature sensor is mounted on an interior ceiling of the paint spray booth, the humidity sensor is mounted on an interior wall of the paint spray booth, the control system is respectively in communication connection with the temperature sensor and the humidity sensor, the temperature sensor is used for detecting the temperature inside the paint spray booth, and the humidity sensor is used for detecting the humidity inside the paint spray booth.

3. The monitoring system according to claim 2, wherein the spray booth is provided with an air outlet line, the monitoring system further comprising an exhaust gas treatment device, the air outlet line communicating the spray booth with the exhaust gas treatment device, the air outlet line for exhausting exhaust gas in the spray booth, the exhaust gas treatment device for filtering the exhaust gas.

4. A monitoring system according to claim 3, wherein the gas detection means comprises a first sampling line, a second sampling line, a first VOC gas detector, a second VOC gas detector; the air outlet pipeline and the first VOC gas detector are communicated through the first sampling pipeline, and the first VOC gas detector is used for detecting the VOC concentration of the waste gas in the air outlet pipeline through the first sampling pipeline; the waste gas treatment device is provided with an exhaust pipeline, the exhaust pipeline is communicated with the second VOC gas detector through a second sampling pipeline, and the second VOC gas detector is used for detecting the VOC concentration of the gas filtered by the waste gas treatment device through the second sampling pipeline.

5. The monitoring system according to claim 4, further comprising an air supply device and an air exhaust device, wherein an air inlet chamber is arranged at the top of the paint spray booth, the air supply device and the paint spray booth are communicated through the air inlet chamber, and the air supply device is used for supplying air to the paint spray booth through the air inlet chamber; the exhaust device is arranged between the waste gas treatment device and the exhaust pipeline and is respectively communicated with the waste gas treatment device and the exhaust pipeline, and the exhaust device is used for exhausting air through the exhaust pipeline.

6. The monitoring system of claim 4, wherein the control system comprises an operator console, a display and a controller, wherein the operator console is provided with a control cabinet at the bottom, the controller is arranged in the control cabinet, the display is arranged on the operator console, and the controller is respectively in communication connection with the sensor module, the gas detection device, the process monitoring device, the warning operation device and the display.

7. The monitoring system of claim 6, wherein the controller is communicatively coupled to the temperature sensor, the humidity sensor, the first VOC gas detector, the second VOC gas detector, respectively; the controller is used for acquiring the temperature according to the temperature sensor and controlling the warning operation device according to the temperature, acquiring the humidity according to the humidity sensor and controlling the warning operation device according to the humidity, processing a first VOC concentration value acquired by the first VOC gas detector and a second VOC concentration value acquired by the second VOC gas detector, and controlling the warning operation device according to a processing result; the controller is also used for controlling the display to display an alarm prompt according to the acquired temperature, controlling the display to display the alarm prompt according to the acquired humidity, controlling the display to display the processing result, and controlling the display to display the alarm prompt according to the processing result.

8. The monitoring system of claim 6, wherein the control system further comprises a server and a communication module, wherein the communication module is installed in the control cabinet, and the communication module is respectively in communication connection with the controller and the server.

9. The monitoring system according to claim 1, wherein the number of the process monitoring devices is two, and the two process monitoring devices are respectively installed on the inner top wall of the spray booth and are arranged in a pair of angles; the number of the warning operation devices is two, and the two warning operation devices are respectively arranged on the inner wall and the outer wall of the spray booth.

10. The monitoring system of claim 1, further comprising a heating device for heating the spray booth, the control system being in communication with the heating device and controlling the heating device based on temperature.

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