CN213482686U - Comprehensive monitoring and treating system for waste gas and waste water - Google Patents

Abstract

The utility model discloses an exhaust gas waste water integrated monitoring processing system includes central controller, bacterium detection sensor, waste water pH value detection sensor, heavy metal detection sensor, PM2.5 sensor, temperature and humidity sensor, air pH value detection sensor, gas sensor, effluent treatment plant and breather, still includes signal amplifier, signal filter, analog-to-digital converter, data display device, red LED flash lamp, orange LED flash lamp, yellow LED flash lamp, green LED flash lamp, cyan LED flash lamp, blue LED flash lamp and purple LED flash lamp. The utility model discloses a signal amplifier, signal filter, adc amplify the detected signal in proper order, filter and the analog-to-digital conversion is handled after sending the detected data to central controller, and the central controller of being convenient for carries out data processing, has reduced the error of detected data; each detection data is visualized through the data display device, so that the detection data can be displayed more visually.

Description

Comprehensive monitoring and treating system for waste gas and waste water

Technical Field

The utility model belongs to the technical field of data monitoring, concretely relates to waste gas waste water integrated monitoring processing system.

Background

The laboratory is a place where people carry out various experiments, people often generate various gases in the experiment process, and some of the gases are harmful to human bodies or can damage experimental instruments, so that the gases in the laboratory need to be treated and discharged, fresh air is supplemented from the outside, the air environment in the laboratory is ensured not to influence the health of human bodies or the experimental instruments, in addition, wastewater is generated in the experiment process and also needs to be treated and discharged, the intelligence degree of the current laboratory is low, in the experiment process of people, a ventilation module and a wastewater treatment module in the laboratory are always in a working state, but sometimes the gas environment in the laboratory does not influence the health of human bodies or the experimental instruments, and the wastewater generated in the experiment process does not necessarily need to pass through the wastewater treatment module (as long as the discharged wastewater does not influence the environment), therefore, there is a need for further optimization of the environmental monitoring system in the laboratory to achieve more intelligent and humanized monitoring.

The prior authorized utility model has the patent application number of CN201822217489.4 and is named as a laboratory environment monitoring system based on the Internet of things, and comprises a central controller, a ventilation module, a wastewater treatment module, an audible and visual alarm module, a wastewater monitoring module, an air monitoring module and a storage module, wherein the wastewater monitoring module and the air monitoring module are electrically connected with the input end of the central controller, and the ventilation module, the wastewater treatment module, the audible and visual alarm module and the storage module are electrically connected with the output end of the central controller; the quality of waste water monitoring module and air monitoring module can real-time supervision laboratory's air and waste water to data transmission who will detect gives central controller, when the quality of the air of laboratory and waste water does not reach and predetermines the requirement, central controller reminds the staff of laboratory through audible-visual alarm module, and come air-purifying and waste water through starting module of taking a breath and waste water treatment module, realize the control to laboratory intellectuality and hommization.

However, the scheme is too coarse for collecting the air and wastewater data, and does not perform corresponding pretreatment on the collected data, so that the data obtained by the central controller has larger error; moreover, no visualization equipment is arranged on the monitored data, so that the monitored data is not visual; meanwhile, for different monitoring data, abnormal alarms are single alarms, and no targeted alarm is given, so that the reaction time of field workers is long.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an exhaust gas waste water integrated monitoring processing system for solve one of the technical problem that exists among the above-mentioned prior art, if: in the prior art, the collection of air and wastewater data is too coarse, and the collected data is not correspondingly preprocessed, so that the data obtained by a central controller has larger error; moreover, no visualization equipment is arranged on the monitored data, so that the monitored data is not visual; meanwhile, for different monitoring data, abnormal alarms are single alarms, and no targeted alarm is given, so that the reaction time of field workers is long.

In order to achieve the above purpose, the technical scheme of the utility model is that:

a comprehensive monitoring and processing system for waste gas and waste water comprises a central controller, a bacteria detection sensor, a waste water PH value detection sensor, a heavy metal detection sensor, a PM2.5 sensor, a temperature and humidity sensor, an air PH value detection sensor, a gas sensor, a waste water processing device and a ventilation device, and further comprises a signal amplifier, a signal filter, an analog-to-digital converter, a data display device, a red LED flash lamp, an orange LED flash lamp, a yellow LED flash lamp, a green LED flash lamp, a cyan LED flash lamp, a blue LED flash lamp and a purple LED flash lamp;

the bacteria detection sensor, the wastewater pH value detection sensor, the heavy metal detection sensor, the PM2.5 sensor, the temperature and humidity sensor, the air pH value detection sensor and the gas sensor are respectively connected with the signal amplifier;

the signal amplifier, the signal filter, the analog-to-digital converter and the central controller are sequentially connected;

the central controller is also respectively connected with the data display device, the red LED flash lamp, the orange LED flash lamp, the yellow LED flash lamp, the green LED flash lamp, the cyan LED flash lamp, the blue LED flash lamp and the purple LED flash lamp.

Further, the data display device is an LCD.

Further, the system also comprises a data storage device, and the data storage device is connected with the central controller.

Further, still include image acquisition device, image acquisition device with central controller is connected.

Further, the image acquisition device adopts a panoramic camera.

Further, the system also comprises a wireless communication device, and the central controller is connected with the remote monitoring center and the mobile terminal through the wireless communication device.

Further, the wireless communication device adopts 4G or 5G.

Furthermore, the solar energy water heater also comprises a power supply, wherein the power supply is a storage battery or a solar charging panel.

Compared with the prior art, the utility model discloses the beneficial effect who has does:

the scheme has the innovative points that the signal amplifier, the signal filter and the analog-to-digital converter sequentially amplify, filter and convert the detection signals and then send the detection data to the central controller, so that the central controller can conveniently process the data, and the error of the detection data is reduced; the data display device is used for visualizing all the detection data, so that the detection data can be displayed more intuitively; the data abnormity alarm of the red LED flash lamp, the orange LED flash lamp, the yellow LED flash lamp, the green LED flash lamp, the cyan LED flash lamp, the blue LED flash lamp and the purple LED flash lamp respectively corresponds to the bacteria detection sensor, the wastewater PH value detection sensor, the heavy metal detection sensor, the PM2.5 sensor, the temperature and humidity sensor, the air PH value detection sensor and the gas sensor, if: when the bacteria data detected by the bacteria detection sensor are abnormal, the red LED flash lamp directly conducts light flashing alarm, so that field workers can know that the bacteria in the wastewater are abnormal at once, and the reaction speed of the field workers in the face of abnormal conditions is accelerated.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example (b):

in the prior art, the collection of air and wastewater data is too coarse, and the collected data is not correspondingly preprocessed, so that the data obtained by a central controller has larger error; moreover, no visualization equipment is arranged on the monitored data, so that the monitored data is not visual; meanwhile, for different monitoring data, abnormal alarms are single alarms, and no targeted alarm is given, so that the reaction time of field workers is long.

Therefore, the comprehensive monitoring and processing system for the waste gas and the waste water comprises a central controller, a bacteria detection sensor, a waste water pH value detection sensor, a heavy metal detection sensor, a PM2.5 sensor, a temperature and humidity sensor, an air pH value detection sensor, a gas sensor, a waste water processing device and a ventilation device, and further comprises a signal amplifier, a signal filter, an analog-to-digital converter, a data display device, a red LED flash lamp, an orange LED flash lamp, a yellow LED flash lamp, a green LED flash lamp, a cyan LED flash lamp, a blue LED flash lamp and a purple LED flash lamp;

the bacteria detection sensor, the wastewater pH value detection sensor, the heavy metal detection sensor, the PM2.5 sensor, the temperature and humidity sensor, the air pH value detection sensor and the gas sensor are respectively connected with the signal amplifier;

the signal amplifier, the signal filter, the analog-to-digital converter and the central controller are sequentially connected;

the central controller is also respectively connected with the data display device, the red LED flash lamp, the orange LED flash lamp, the yellow LED flash lamp, the green LED flash lamp, the cyan LED flash lamp, the blue LED flash lamp and the purple LED flash lamp.

In the scheme, the signal amplifier, the signal filter and the analog-to-digital converter sequentially amplify, filter and convert the detection signals and then send the detection data to the central controller, so that the central controller can conveniently process the data, and the error of the detection data is reduced; the data display device is used for visualizing all the detection data, so that the detection data can be displayed more intuitively; the data abnormity alarm of the red LED flash lamp, the orange LED flash lamp, the yellow LED flash lamp, the green LED flash lamp, the cyan LED flash lamp, the blue LED flash lamp and the purple LED flash lamp respectively corresponds to the bacteria detection sensor, the wastewater PH value detection sensor, the heavy metal detection sensor, the PM2.5 sensor, the temperature and humidity sensor, the air PH value detection sensor and the gas sensor, if: when the bacteria data detected by the bacteria detection sensor are abnormal, the red LED flash lamp directly conducts light flashing alarm, so that field workers can know that the bacteria in the wastewater are abnormal at once, and the reaction speed of the field workers in the face of abnormal conditions is accelerated.

Further, the data display device is an LCD. Compared with other display screens, the LCD has better definition, resolution and visual experience, so that the LCD is the optimal scheme for data display.

Further, the system also comprises a data storage device, and the data storage device is connected with the central controller. The detection data of each sensor can be stored and backed up through the data storage device, and the situations of data error and leakage and the like when the data needs to be extracted in the later period are avoided.

Further, still include image acquisition device, image acquisition device with central controller is connected. The image acquisition device is used for acquiring on-site image information, so that monitoring is more comprehensive.

Further, the image acquisition device adopts a panoramic camera. The camera scope of panorama camera is great, uses the reducible ordinary camera's of panorama camera installation use quantity.

Further, the system also comprises a wireless communication device, and the central controller is connected with the remote monitoring center and the mobile terminal through the wireless communication device. And remote transmission of data is realized.

Further, the wireless communication device adopts 4G or 5G. The communication rates of 4G and 5G are extremely fast, and wireless transmission of detection data is more facilitated.

Furthermore, the solar energy water heater also comprises a power supply, wherein the power supply is a storage battery or a solar charging panel. The two power supply modes can be selectively switched according to specific environments.

Above is the utility model discloses a preferred embodiment, all rely on the utility model discloses the change that technical scheme made, produced functional action does not surpass the utility model discloses during technical scheme's scope, all belong to the utility model discloses a protection scope.

Claims (8)

1. A comprehensive monitoring and processing system for waste gas and waste water comprises a central controller, a bacteria detection sensor, a waste water PH value detection sensor, a heavy metal detection sensor, a PM2.5 sensor, a temperature and humidity sensor, an air PH value detection sensor, a gas sensor, a waste water processing device and a ventilation device, and is characterized by further comprising a signal amplifier, a signal filter, an analog-to-digital converter, a data display device, a red LED flash lamp, an orange LED flash lamp, a yellow LED flash lamp, a green LED flash lamp, a cyan LED flash lamp, a blue LED flash lamp and a purple LED flash lamp;

the bacteria detection sensor, the wastewater pH value detection sensor, the heavy metal detection sensor, the PM2.5 sensor, the temperature and humidity sensor, the air pH value detection sensor and the gas sensor are respectively connected with the signal amplifier;

the signal amplifier, the signal filter, the analog-to-digital converter and the central controller are sequentially connected;

the central controller is also respectively connected with the data display device, the red LED flash lamp, the orange LED flash lamp, the yellow LED flash lamp, the green LED flash lamp, the cyan LED flash lamp, the blue LED flash lamp and the purple LED flash lamp.

2. The comprehensive monitoring and treating system for waste gas and water as claimed in claim 1, wherein the data display device is LCD.

3. The integrated monitoring and treatment system for waste gas and water as claimed in claim 1, further comprising a data storage device, wherein the data storage device is connected with the central controller.

4. The integrated monitoring and processing system for waste gas and water as claimed in claim 1, further comprising an image acquisition device, wherein the image acquisition device is connected with the central controller.

5. The comprehensive monitoring and processing system for waste gas and water as claimed in claim 4, wherein the image acquisition device adopts a panoramic camera.

6. The integrated waste gas and water monitoring and treating system as claimed in claim 1, further comprising a wireless communication device, wherein the central controller is connected with a remote monitoring center and a mobile terminal network through the wireless communication device.

7. The integrated monitoring and treating system for waste gas and water of claim 6, wherein the wireless communication device is 4G or 5G.

8. The comprehensive monitoring and treating system for waste gas and water as claimed in claim 1, further comprising a power supply, wherein the power supply is a storage battery or a solar charging panel.

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