CN114184752A - Heavy metal pollutant resistance control device and system - Google Patents

Abstract

The invention discloses a heavy metal pollutant resistance control device and system, and belongs to the field of water quality detection. The heavy metal pollutant prevention and control device comprises: the device comprises a sampling module, a detection module, an analysis module, a matching module and a communication module. The sampling module is used for acquiring a sampling instruction and acquiring sample information of the target water body according to the sampling instruction; the detection module is connected with the sampling module and is used for generating detection data according to the sample information; the analysis module is connected with the detection module and is used for acquiring detection data and generating component data according to the detection data; the matching module is connected with the analysis module and is used for generating the component information of the blocking and controlling agent according to the component data. The communication module is respectively connected with the matching module and the analysis module, and is used for acquiring the component information of the blocking and controlling agent and generating a first request instruction or a second request instruction according to the component information of the blocking and controlling agent.

Description

Heavy metal pollutant resistance control device and system

Technical Field

The invention relates to the field of water quality detection, in particular to a heavy metal pollutant resistance control device and system.

Background

In the related technology, the control of heavy metal pollutants is usually realized by gradually adding the control agent to the target water body in a graded manner, and the method is time-consuming and labor-consuming. Therefore, how to provide a simple and efficient heavy metal pollutant prevention and control device becomes a problem to be solved urgently.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a heavy metal pollutant control device which can simply and efficiently control the heavy metal pollutants in a target water body while effectively detecting the water quality information of the target water body.

The invention also provides a heavy metal pollutant resistance control system with the heavy metal pollutant resistance control device.

According to a first aspect embodiment of the invention, the heavy metal pollutant control device comprises:

the sampling module is used for acquiring a sampling instruction and acquiring sample information of the target water body according to the sampling instruction;

the detection module is connected with the sampling module and used for generating detection data according to the sample information;

the analysis module is connected with the detection module and used for acquiring the detection data and generating component data according to the detection data;

the matching module is connected with the analysis module and used for generating component information of the blocking and controlling agent according to the component data;

the communication module is respectively connected with the matching module and the analysis module and is used for acquiring the component information of the inhibition control agent and generating a first request instruction or a second request instruction according to the component information of the inhibition control agent; the communication module is further used for acquiring and outputting second analysis data and the difference information.

The heavy metal pollutant prevention and control device provided by the embodiment of the invention at least has the following beneficial effects:

the heavy metal pollutant resistance control device can acquire a sampling instruction through the sampling module and acquire sample information of the target water body according to the sampling instruction; the sample information can be processed through a detection module to obtain detection data; the detection data can be processed through an analysis module to obtain component data containing information of each heavy metal pollutant in the current water body; the component data can be analyzed through a matching module, and corresponding component information of the inhibition control agent can be obtained according to the information of each heavy metal pollutant in the component data; the communication module respectively connected with the matching module and the analysis module can generate a first request instruction or a second request instruction according to the component information of the inhibition control agent. This device carries out accurate collection through the quality of water information to in the target water, can obtain sample information. The device can obtain component data containing specific data of each heavy metal pollutant in the target water body through detection and analysis of sample information, and generate corresponding component information of the inhibition and control agent in a targeted manner according to the component data, so that a first request instruction or a second request instruction is obtained according to the component information of the inhibition and control agent, and then the component information of the inhibition and control agent containing the concentration of the inhibition and control agent required by each pollutant to the target water body is generated according to the content of each pollutant in the water quality information of the target water body. The device can effectively realize the resistance control aiming at the content of the heavy metal pollutants in the target water body by providing the component information of the resistance control agent, thereby realizing the resistance control on the heavy metal pollutants once according to the component information of the resistance control agent and effectively improving the working efficiency of the heavy metal pollutant resistance control device.

According to some embodiments of the invention, the detection data comprises first detection data and second detection data, the sampling module comprises:

an analysis unit for performing a water quality acquisition step, the water quality acquisition step comprising: acquiring sample information of the target water body, and analyzing the sample information of the target water body to generate analysis data;

the comparison unit is respectively connected with the analysis unit and the analysis module, and is used for acquiring the analysis data and executing one of the following steps according to the analysis data, a preset first threshold and a preset second threshold:

if the analysis data is less than or equal to the first threshold, returning to the analysis unit to execute the water quality acquisition step;

alternatively, the first and second electrodes may be,

if the analytic data are larger than the first threshold value and smaller than or equal to the second threshold value, generating and outputting first detection data;

or

And if the analysis data is larger than the second threshold, generating and outputting second detection data.

According to some embodiments of the invention, the analysis module comprises:

the analysis unit is connected with the comparison unit and used for receiving the detection data and executing one of the following steps according to the receiving state of the detection data:

if the first detection data are received, generating first analysis data according to the first detection data;

alternatively, the first and second electrodes may be,

if the second detection data are received, obtaining difference information according to the second detection data, and generating second analysis data according to the difference information;

a component generation unit connected to the analysis unit, for executing one of the following steps according to the acquisition status of the first analysis data and the second analysis data:

if the first analysis data is received, generating first component data according to the first analysis data; wherein the first set of data comprises first matching data;

alternatively, the first and second electrodes may be,

if the second analysis data is received, generating second component data according to the second analysis data; wherein the second set of data includes second matching data and the difference information.

According to some embodiments of the invention, the matching module comprises:

the component acquisition unit is connected with the component generation unit and is used for acquiring the first component data or the second component data;

the information matching unit is connected with the component acquiring unit and is used for generating first component information of the inhibiting and controlling agent according to the first component data; or generating second inhibition agent component information according to the second component data.

According to some embodiments of the invention, the communication module is further configured to acquire and output the second analysis data and the difference information, the communication module comprising:

the first communication unit is connected with the information matching unit and is used for receiving the first inhibition control agent component information or the second inhibition control agent component information;

the instruction matching unit is connected with the first communication unit and used for generating a first request instruction according to the received first component information of the first inhibitor or generating a second request instruction according to the received second component information of the second inhibitor;

the second communication unit is respectively connected with the instruction matching unit and the analysis unit and is used for outputting the first request instruction or the second request instruction to terminal equipment; and the terminal equipment is also used for outputting the difference information to the terminal equipment when the difference information is acquired.

According to some embodiments of the invention, the second communication unit comprises:

and the encryption component is used for encrypting the difference information and outputting the encrypted difference information to the terminal equipment.

According to a second aspect of the invention, the heavy metal pollutant prevention and control system comprises:

a heavy metal contaminant control device according to an embodiment of the first aspect of the present invention;

the terminal equipment is in communication connection with the heavy metal pollutant control device to receive a first request instruction or a second request instruction; the terminal device is further configured to receive difference information.

The heavy metal pollutant control system provided by the embodiment of the invention at least has the following beneficial effects:

the heavy metal pollutant control system provided by the invention can obtain the water quality information in the target water body and generate the sample information through the heavy metal pollutant control device provided by the embodiment of the first aspect of the invention. Through detection and analysis of sample information, the system can obtain component data containing specific data of each heavy metal pollutant in the target water body, and generate corresponding inhibition and control agent component information in a targeted manner according to the component data, so that a first request instruction or a second request instruction is obtained according to the inhibition and control agent component information, and inhibition and control agent component information containing the concentration of the inhibition and control agent required by each pollutant pair is generated according to the content of each pollutant in the water quality information of the target water body; the terminal equipment can acquire a first request instruction or a second request instruction, and first component information is acquired according to the acquired first request instruction, so that a first inhibition control agent is acquired according to the first component information, and the first inhibition control agent is sprayed to a target water body; or obtaining second component information according to the obtained second request instruction, and obtaining a second resistance control agent according to the second component information, so as to spray the second resistance control agent to the target water body. The heavy metal pollutant resistance control system provided by the invention can perform targeted analysis according to the concentration of pollutants in the target water body, generate a corresponding resistance control agent according to the analysis result, and can perform effective heavy metal pollutant resistance control on the target water body at one time.

According to some embodiments of the invention, the terminal device comprises:

the instruction sending unit is used for being in communication connection with the sampling module and used for sending a sampling instruction.

According to some embodiments of the invention, the terminal device further comprises:

the instruction analysis unit is used for acquiring the first request instruction or the second request instruction; the instruction analysis unit is further configured to analyze the acquired first request instruction and generate first component information, or analyze the acquired second request instruction and generate second component information

According to some embodiments of the invention, the terminal device further comprises:

the spraying unit is connected with the instruction analyzing unit and is used for obtaining a first resistance control agent according to the first component information so as to spray the target water body; or the second component information is used for obtaining a second resistance control agent according to the obtained second component information so as to carry out spraying treatment on the target water body.

Additional aspects and advantages of the invention 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 invention.

Drawings

The invention is further described with reference to the following figures and examples, in which:

fig. 1 is a structural diagram of a heavy metal pollutant controlling device according to an embodiment of the present invention.

Fig. 2 is a specific structural diagram of a heavy metal pollutant controlling device according to an embodiment of the present invention.

Fig. 3 is a detailed structural diagram of the second communication unit in fig. 1.

Fig. 4 is a specific structural diagram of a water heavy metal pollutant control system according to an embodiment of the invention.

Reference numerals: 1100. a sampling module; 1200. a detection module; 1300. an analysis module; 1400. a matching module; 1500. a communication module; 1110. an analysis unit; 1120. a comparison unit; 1310. an analysis unit; 1320. a component generation unit; 1410. a component obtaining unit; 1420. an information matching unit; 1510. a first communication unit; 1520. an instruction matching unit; 1530. a second communication unit; 1531. an encryption component; 1000. a heavy metal pollutant controlling device; 2000. a terminal device; 2100. an instruction transmitting unit; 2200. an instruction parsing unit; 2300. and a spraying unit.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality is one or more, the meaning of a plurality is two or more, and the meaning of more, less, more, etc. is understood as excluding the number, and the meaning of more, less, more, etc. is understood as including the number. If there is a description of the first and second for the purpose of distinguishing technical features, it is not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

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

In a first aspect, referring to fig. 1, the present invention provides a heavy metal pollutant prevention and control apparatus, which includes a sampling module 1100, a detection module 1200, an analysis module 1300, a matching module 1400, and a communication module 1500. The sampling module 1100 is configured to obtain a sampling instruction and acquire sample information of a target water body according to the sampling instruction; the detection module 1200 is connected to the sampling module 1100, and configured to generate detection data according to the sample information; the analysis module 1300 is connected to the detection module 1200, and is configured to obtain detection data and generate component data according to the detection data; the matching module 1400 is connected to the analysis module 1300, and is configured to generate the component information of the blocking agent according to the component data. The communication module 1500 is connected to the matching module 1400 and the analysis module 1300, respectively, and the communication module 1500 is configured to obtain the component information of the inhibition control agent, and generate a first request instruction or a second request instruction according to the component information of the inhibition control agent.

The heavy metal pollutant resistance control device provided by the invention can acquire a sampling instruction through the sampling module 1100 and collect sample information of a target water body; the sample information can also be processed by the detection module 1200 to obtain detection data; the detection data can be processed through the analysis module 1300 to obtain component data containing information of each heavy metal pollutant in the current water body; the component data can be analyzed through the matching module 1400, and corresponding component information of the inhibition control agent can be obtained according to the information of each heavy metal pollutant in the component data; the first request instruction or the second request instruction may be generated according to the inhibition control agent composition information by the communication module 1500 that connects the matching module 1400 and the analysis module 1300, respectively. This device carries out accurate collection through the quality of water information to in the target water, can obtain sample information. The device can obtain component data containing specific data of each heavy metal pollutant in the target water body through detection and analysis of sample information, and generate corresponding component information of the inhibition and control agent in a targeted manner according to the component data, so that a first request instruction or a second request instruction is obtained according to the component information of the inhibition and control agent, and then component information of the inhibition and control agent containing the concentration of the inhibition and control agent required by each pollutant to the target water body is generated according to the content of each pollutant in the water quality information of the target water body. This device can effectively realize hindering the accuse to target water heavy metal pollutant content through providing and hinder accuse agent component information to once realizing hindering the accuse to heavy metal pollutant according to hindering accuse agent component information, the effectual work efficiency that has improved heavy metal pollutant and hinder accuse device.

Referring to fig. 2, in some embodiments, the detection data includes first detection data and second detection data, and the sampling module 1100 includes a parsing unit 1110 and a comparing unit 1120. The analyzing unit 1110 is configured to perform a water quality obtaining step, where the water quality obtaining step includes: acquiring sample information of a target water body, and analyzing the sample information of the target water body to generate analysis data; the comparing unit 1120 is respectively connected to the analyzing unit 1110 and the analyzing module 1300, and the comparing unit 1120 is configured to obtain the analyzed data, and execute one of the following steps according to the analyzed data, the preset first threshold, and the preset second threshold: if the analysis data is less than or equal to the first threshold, returning to the analysis unit 1110 to execute the water quality acquisition step; or if the analysis data is larger than the first threshold and the analysis data is smaller than or equal to the second threshold, generating and outputting first detection data; or if the analysis data is larger than the second threshold value, generating and outputting second detection data.

The device for controlling heavy metal pollutants provided by the present invention comprises an analysis unit 1110 and a comparison unit 1120, wherein the comparison unit 1120 is respectively connected to the analysis unit 1110 and the analysis module 1300. The heavy metal pollutant blockage control device provided by the invention can execute the water quality acquisition step through the analysis unit 1110, and by executing the water quality acquisition step, the analysis unit 1110 can acquire the sample information of the target water body and obtain the analysis data of the target water body according to the analysis result of the sample information. The analysis data comprises first detection data and second detection data. The comparing unit 1120 may determine the current water quality state in the water body according to the analysis data, the preset first threshold and the preset second threshold. Specifically, when the analysis data is less than or equal to the first threshold, the comparing unit 1120 determines that the current water quality state of the target water body is in the first state, and controls the analyzing unit 1110 to re-execute the water quality obtaining step, so as to re-obtain the analysis data of the target water body at the next moment; when the analysis data is greater than the first threshold and less than or equal to the second threshold, the comparing unit 1120 determines that the current water quality state of the target water body is in the second state, and outputs first detection data; when the analysis data is greater than the second threshold, the comparing unit 1120 determines that the current water quality state of the target water body is in the third state, and outputs second detection data. In some embodiments, the first state may be that the water quality is good, the second state may be that the water quality is good, and the third state may be that the water quality is poor. The heavy metal pollutant inhibition and control device provided by the invention can effectively acquire the water quality information of the target water body through the analysis module 1300, and clearly classify the current water quality state of the target water body, so that the heavy metal pollutants in the water body are screened and inhibited and controlled according to different classifications.

Referring to fig. 2, in some embodiments, the analysis module 1300 includes an analysis unit 1310, a component generation unit 1320. The analyzing unit 1310 is connected to the comparing unit 1120, and the analyzing unit 1310 is configured to receive the detection data and perform one of the following steps according to a receiving status of the detection data: if the first detection data are received, generating first analysis data according to the first detection data; or if the second detection data are received, obtaining difference information according to the second detection data, and generating second analysis data according to the difference information; the component generating unit 1320 is connected to the analyzing unit 1310, and the component generating unit 1320 is configured to execute one of the following steps according to the obtaining status of the first analysis data and the second analysis data: if the first analysis data is received, generating first component data according to the first analysis data; wherein the first component data comprises first match data; or if second analysis data are received, generating second component data according to the second analysis data; wherein the second component data includes second match data and difference information.

The analysis module 1300 of the device for controlling heavy metal pollutants provided by the present invention comprises an analysis unit 1310 and a component generation unit 1320, wherein the analysis unit 1310 is connected to the comparison unit 1120, and the component generation unit 1320 is connected to the analysis unit 1310. The apparatus provided by the present invention can receive the detection data through the analysis unit 1310, and perform different operations according to the receiving status of different detection data. Specifically, when the received detection data is the first detection data, the analysis unit 1310 generates first analysis data according to an analysis result of the first detection data; alternatively, when the received detection data is the second detection data, the analysis unit 1310 generates the second analysis data according to an analysis result of the second detection data. The component generating unit 1320 may perform different operations according to the acquisition state of the analysis data, and specifically, when the component generating unit 1320 receives the first analysis data, the component generating unit may generate first matching data according to a matching result between the first analysis data and a preset database; alternatively, when the component generating unit 1320 receives the second analysis data, the second matching data may be generated according to a matching result of the second analysis data with a preset database. The component generating unit 1320 may further analyze the obtained second analysis data, and obtain second component data according to an analysis result, where the second component data includes second matching data and difference information, and the difference information includes maximum pollution source information of the target water body at the current time. This device can carry out the analysis according to the detected data of output under the different quality of water circumstances through analysis module 1300 to obtain corresponding matching data according to the analysis result, it is unusual, the quality of water state when the target water is present time is in the second state, and this device can also obtain the biggest pollution source under the current moment of target water, and the effectual pollutant to the target water carries out the analysis, has improved the analysis efficiency that heavy metal pollutant hinders accuse device to target water pollutant content.

Referring to fig. 2, in some embodiments, the matching module 1400 includes a component obtaining unit 1410, an information matching unit 1420. The component acquiring unit 1410 is connected to the component generating unit 1320, and the component acquiring unit 1410 is configured to acquire the first component data or the second component data; the information matching unit 1420 is connected to the component obtaining unit 1410, and the information matching unit 1420 is configured to generate first blocking agent component information according to the first component data; or generating second inhibition control agent component information according to the second component data;

the matching module 1400 of the heavy metal pollutant control device provided by the invention comprises a component obtaining unit 1410 and an information matching unit 1420, wherein the component obtaining unit 1410 is connected with the component generating unit 1320, and the information matching unit 1420 is connected with the component obtaining unit 1410. The component acquisition unit 1410 may acquire the first component data or the second component data, and the information matching unit 1420 may parse the first component data and generate the first inhibitor component information or parse the second component data and generate the second inhibitor component information. This device can carry out the configuration of targeted accuse agent that hinders through matching module 1400 according to the quality of water state under the target water body current moment, and is specific, is in under the first state when the target water body, and this device can obtain first accuse agent component information according to the quality of water information under the first state, perhaps is in under the second state when the target water body, and this device can obtain the second according to the quality of water information under the second state and hinders accuse agent component information, and effectual type and the concentration targeted formation of each pollutant in the target water body hinders accuse agent component information, can realize effectively hindering the accuse to the heavy metal pollutant in the target water body.

Referring to fig. 2, in some embodiments, the communication module 1500 includes a first communication unit 1510, an instruction matching unit 1520, a second communication unit 1530. The first communication unit 1510 is connected to the information matching unit 1420, and the first communication unit 1510 is configured to receive the first blocking agent component information or the second blocking agent component information; the instruction matching unit 1520 is connected to the first communication unit 1510, and configured to generate a first request instruction according to the received first blocking agent component information, or generate a second request instruction according to the received second blocking agent component information; the second communication unit 1530 is connected to the instruction matching unit 1520 and the analysis unit 1310, respectively, and the second communication unit 1530 is configured to output the first request instruction or the second request instruction to the terminal device; and the terminal equipment is also used for outputting the difference information to the terminal equipment when the difference information is acquired.

The communication module 1500 of the heavy metal pollutant control device provided by the invention can acquire and output second analysis data and difference information, and the communication module 1500 provided by the invention comprises a first communication unit 1510, an instruction matching unit 1520 and a second communication unit 1530. The first communication unit 1510 is connected to the information matching unit 1420, the instruction matching unit 1520 is connected to the first communication unit 1510, and the second communication unit 1530 is connected to the instruction matching unit 1520 and the analysis unit 1310, respectively, so that the communication unit provided by the invention can acquire the first or second blocking agent component information through the first communication unit 1510; the instruction matching unit 1520 may perform different operations according to the reception states of the first and second retardant component information. Specifically, when the instruction matching unit 1520 receives the first inhibitor component information, the first request instruction may be obtained by analyzing the first inhibitor component information, and when the instruction matching unit 1520 receives the second inhibitor component information, the second request instruction may be obtained by analyzing the second inhibitor component information. The second communication unit 1530 may output the generated first request instruction or the generated second request instruction to the terminal device, so as to control the terminal device to obtain the first blocking control agent according to the first request instruction, or obtain the second blocking control agent according to the second request instruction, and the second communication unit 1530 may also call the difference information and output the difference information to the terminal device when the analysis unit 1310 generates the difference information, so as to notify the terminal device of the maximum pollution source of the target water body at the current time, so as to perform emergency blocking control on the pollution source. The device realizes the output of the acquired inhibition control agent information to the terminal through the communication module 1500, and the control terminal acquires the corresponding inhibition control agent according to the inhibition control agent information, thereby realizing the effective inhibition control of the heavy metal pollutants in the target water body.

Referring to fig. 3, in some embodiments, the second communication unit 1530 includes an encryption component 1531, and the encryption component 1531 is configured to perform encryption processing on the difference information and output the encrypted difference information to the terminal device. The second communication unit 1530 of the heavy metal pollutant control device provided by the invention comprises the encryption component 1531, the encryption component 1531 provided by the invention can encrypt the difference information and output the encrypted encryption information to the terminal equipment, and the device provided by the invention can safely output the difference information to the terminal equipment through the secret component, so that the safety of the device is greatly improved.

In a second aspect, referring to fig. 4, the invention provides a heavy metal pollutant control system, comprising: the heavy metal pollutant control device 1000 and the terminal device 2000 according to the embodiment of the first aspect of the invention. The terminal device 2000 is configured to be in communication connection with the heavy metal pollutant control device 1000, so as to receive the first request instruction or the second request instruction, and generate first component information according to the first request instruction, or generate second component information according to the second request instruction; terminal device 2000 is also configured to receive difference information.

According to the invention, the water quality information in the target water body can be obtained through the heavy metal pollutant control device 1000 provided by the embodiment of the first aspect of the invention, and the sample information can be generated. Through detection and analysis of sample information, the system can obtain component data containing specific data of each heavy metal pollutant in the target water body, and generate corresponding component information of the inhibition and control agent in a targeted manner according to the component data, so that a first request instruction or a second request instruction is obtained according to the component information of the inhibition and control agent, and then component information of the inhibition and control agent containing the concentration of the inhibition and control agent required by each pollutant pair is generated according to the content of each pollutant in the water quality information of the target water body; the terminal device 2000 can obtain the first request instruction or the second request instruction, and obtain the first component information according to the obtained first request instruction, so as to obtain the first inhibition control agent according to the first component information, and spray the first inhibition control agent to the target water body; or obtaining second component information according to the obtained second request instruction, and obtaining a second resistance control agent according to the second component information, so as to spray the second resistance control agent to the target water body. The heavy metal pollutant resistance control system provided by the invention can perform targeted analysis according to the concentration of pollutants in the target water body, generate a corresponding resistance control agent according to the analysis result, and perform effective heavy metal pollutant resistance control on the target water body at one time.

Referring to fig. 4, in some embodiments, terminal device 2000 includes an instruction sending unit 2100, instruction sending unit 2100 configured to communicatively couple with a sampling module, and instruction sending unit 2100 configured to send a sampling instruction. The terminal device 2000 of the heavy metal pollutant resistance control system provided by the invention comprises an instruction sending unit 2100, the system provided by the invention can send a sampling instruction to the heavy metal pollutant resistance control device 1000 according to the requirement of a user through the instruction sending unit 2100, and control the heavy metal pollutant resistance control device 1000 to collect the water quality state of a target water body according to a specific sampling instruction, so that the control on the heavy metal pollutant resistance control device 1000 is effectively realized, and the current water quality state and the specific pollutant information of the target water body are effectively obtained.

Referring to fig. 4, in some embodiments, the terminal device 2000 further includes an instruction parsing unit 2200, where the instruction parsing unit 2200 is connected to obtain the first request instruction or the second request instruction; the instruction parsing unit 2200 is further configured to parse the obtained first request instruction and generate first component information, or parse the obtained second request instruction and generate second component information. The terminal device 2000 of the heavy metal pollutant resistance control system provided by the invention comprises an instruction analysis unit 2200, and the system can obtain a first request instruction or a second request instruction through the instruction analysis unit 2200. When the instruction parsing unit 2200 obtains the first request instruction, the first request instruction may be parsed to obtain the first component information; or when the instruction parsing unit 2200 obtains the second request instruction, the second request instruction may be parsed, so as to obtain the second component information. The system can effectively analyze the acquired first request instruction or second request instruction through the instruction analysis unit 2200, acquire the water quality state of the target water body at the current moment according to the analysis result, and acquire the first component information or the second component information of the target water body at the current moment according to the analysis result, thereby acquiring the component information of the control agent required by the target water body at the current moment.

Referring to fig. 4, in some embodiments, the terminal device 2000 further includes a spraying unit 2300, the spraying unit 2300 is connected to the instruction parsing unit 2200, and the spraying unit 2300 is configured to obtain a first blocking control agent according to the first component information to perform spraying processing on the target water body; or the second component information is used for obtaining a second inhibition control agent according to the obtained second component information so as to spray the target water body. The terminal device 2000 of the heavy metal pollutant resistance control system provided by the invention comprises a spraying unit 2300, wherein the spraying unit 2300 is connected with an instruction analyzing unit 2200. The system can obtain the corresponding first resistance control agent or second resistance control agent according to the obtained first component information or second component information through the spraying unit 2300, and sprays the first resistance control agent or second resistance control agent in the target water body, so that the pollutant resistance control is effectively realized according to the type and concentration of the heavy metal pollutants in the target water body, and the resistance control efficiency of the heavy metal pollutant resistance control system is improved.

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

Claims (10)

1. Heavy metal pollutant hinders accuse device, its characterized in that includes:

the sampling module is used for acquiring a sampling instruction and acquiring sample information of the target water body according to the sampling instruction;

the detection module is connected with the sampling module and used for generating detection data according to the sample information;

the analysis module is connected with the detection module and used for acquiring the detection data and generating component data according to the detection data;

the matching module is connected with the analysis module and is used for generating component information of the blocking control agent according to the component data;

the communication module is respectively connected with the matching module and the analysis module, and is used for acquiring the component information of the inhibition control agent and generating a first request instruction or a second request instruction according to the component information of the inhibition control agent.

2. The heavy metal contaminant mitigation device of claim 1, wherein the detection data comprises first detection data and second detection data, and the sampling module comprises:

an analysis unit for performing a water quality acquisition step, the water quality acquisition step comprising: acquiring sample information of the target water body, and analyzing the sample information of the target water body to generate analysis data;

the comparison unit is respectively connected with the analysis unit and the analysis module, and is used for acquiring the analysis data and executing one of the following steps according to the analysis data, a preset first threshold and a preset second threshold:

if the analysis data is less than or equal to the first threshold, returning to the analysis unit to execute the water quality acquisition step;

alternatively, the first and second electrodes may be,

if the analytic data are larger than the first threshold value and smaller than or equal to the second threshold value, generating and outputting first detection data;

alternatively, the first and second electrodes may be,

and if the analysis data is larger than the second threshold, generating and outputting second detection data.

3. The heavy metal contaminant mitigation device of claim 2, wherein the analysis module comprises:

the analysis unit is connected with the comparison unit and used for receiving the detection data and executing one of the following steps according to the receiving state of the detection data:

if the first detection data are received, generating first analysis data according to the first detection data;

alternatively, the first and second electrodes may be,

if the second detection data are received, obtaining difference information according to the second detection data, and generating second analysis data according to the difference information;

the component generating unit is connected with the analyzing unit and is used for executing one of the following steps according to the acquisition states of the first analysis data and the second analysis data:

if the first analysis data is received, generating first component data according to the first analysis data; wherein the first component data comprises first match data;

alternatively, the first and second electrodes may be,

if the second analysis data is received, generating second component data according to the second analysis data; wherein the second component data includes second matching data and the difference information.

4. The heavy metal contaminant mitigation device of claim 3, wherein the matching module comprises:

the component acquisition unit is connected with the component generation unit and is used for acquiring the first component data or the second component data;

the information matching unit is connected with the component acquiring unit and is used for generating first component information of the inhibiting and controlling agent according to the first component data; or generating second inhibition agent component information according to the second component data.

5. The heavy metal pollutant control device of claim 4, wherein the communication module is further configured to obtain and output second analysis data and the difference information, and the communication module comprises:

the first communication unit is connected with the information matching unit and is used for receiving the first inhibition control agent component information or the second inhibition control agent component information;

the instruction matching unit is connected with the first communication unit and used for generating a first request instruction according to the received first component information of the first inhibitor or generating a second request instruction according to the received second component information of the second inhibitor;

the second communication unit is respectively connected with the instruction matching unit and the analysis unit and is used for outputting the first request instruction or the second request instruction to terminal equipment; and the terminal equipment is also used for outputting the difference information to the terminal equipment when the difference information is acquired.

6. The heavy metal contaminant mitigation device of claim 5, wherein the second communication unit comprises:

and the encryption component is used for encrypting the difference information and outputting the encrypted difference information to the terminal equipment.

7. Heavy metal pollutant resistance control system, its characterized in that includes:

the heavy metal contaminant mitigation device of any one of claims 1 to 6;

the terminal equipment is used for being in communication connection with the heavy metal pollutant control device and also used for receiving a first request instruction or a second request instruction and generating first component information according to the first request instruction or generating second component information according to the second request instruction; the terminal device is further configured to receive difference information.

8. The heavy metal contaminant resistance system of claim 7, wherein the terminal device comprises:

the instruction sending unit is used for being in communication connection with the sampling module and is used for sending a sampling instruction.

9. The heavy metal contaminant resistance system of claim 7, wherein the terminal device further comprises:

the instruction analysis unit is used for acquiring the first request instruction or the second request instruction; the instruction analysis unit is further configured to analyze the acquired first request instruction and generate first component information, or analyze the acquired second request instruction and generate second component information.

10. The heavy metal contaminant resistance system of claim 9, wherein the terminal device further comprises:

the spraying unit is connected with the instruction analyzing unit and is used for obtaining a first resistance control agent according to first component information so as to spray the target water body; or the second component information is used for obtaining a second resistance control agent according to the obtained second component information so as to carry out spraying treatment on the target water body.

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