CN114997709A - A kind of road waste water recycling regulation system - Google Patents

Abstract

The invention relates to the technical field of road waste water recycling, and discloses a road waste water recycling and utilization regulation system; through data collection and statistics of different types of roads, various data of different types of road waste water recycling are collected and collected from different aspects. Statistics, the frequency of monitoring can be adjusted dynamically according to the real-time flow, which can effectively improve the monitoring effect of different types of road wastewater recycling. The self-adaptive dispatching recyclers for road waste water recycling can effectively improve the treatment effect of different types of road waste water recycling; the present invention can solve the problem that the waste water recycling states of different types of roads in the existing scheme cannot be comprehensively evaluated and classified, and automatically Adaptive dynamic scheduling staff to handle issues.

Description

A kind of road waste water recycling regulation system

technical field

The invention relates to the technical field of road waste water recycling, in particular to a road waste water recycling and utilization regulation system.

Background technique

Recycling of road wastewater refers to the storage and recycling of rainwater on roads. By filtering and sterilizing the recycled wastewater for secondary use, water resources can be effectively saved.

When the existing road wastewater recycling scheme is implemented, it is only based on a single monitoring device to monitor the road wastewater recycling situation. By regularly arranging personnel for treatment, it is impossible to efficiently and accurately grasp the wastewater recycling status of different types of roads. The monitoring frequency cannot be adaptively and dynamically adjusted according to the real-time flow of different types of roads, resulting in poor overall effect of different types of road wastewater recycling.

SUMMARY OF THE INVENTION

The invention provides a road wastewater recycling and utilization regulation system, the main purpose of which is to solve the problem that the wastewater recycling status of different types of roads in the existing scheme cannot be comprehensively evaluated and classified, and the adaptive dynamic dispatcher can handle the problem.

In order to achieve the above purpose, the present invention provides a road wastewater recycling and utilization adjustment system, including several different types of roads, a monitoring front desk and a display backend;

Monitoring front desk: collect and classify several different types of roads that need to be recycled to obtain a road monitoring set; monitor the wastewater recycling of several different types of roads in the road monitoring set to obtain a wastewater monitoring set;

Display background: analyze and evaluate the wastewater recovery status of the road according to the wastewater monitoring data in the wastewater monitoring set, and obtain the wastewater evaluation set;

According to the wastewater evaluation set, the status of wastewater recovery of several different types of roads is prompted and the schedule is generated.

Preferably, collecting and classifying roads that need to be recycled for wastewater, including:

Obtain the name of the road that needs to be recycled for wastewater, and match the name of the road with the pre-built road data table to obtain the corresponding road type and its corresponding road weight;

Obtain the corresponding standard volume of wastewater recycling according to the road type;

Several road types, road weights, and standard volumes for wastewater recovery constitute the road monitoring set.

Preferably, the wastewater recovery of several different types of roads in the road monitoring set is monitored, including:

Obtain the real-time volume of recycled wastewater of several different types of roads, and several real-time volumes constitute wastewater volume data;

Obtain the real-time flow velocity and real-time flow of recycled wastewater of several different types of roads, and several real-time flows and real-time flow constitute wastewater flow data; wastewater volume data and wastewater flow data constitute a wastewater monitoring set.

Preferably, the wastewater recovery status of the road is analyzed and evaluated according to the wastewater volume data and wastewater flow data in the wastewater monitoring set, including:

Process the wastewater volume data and wastewater flow data according to the preset monitoring and evaluation period;

Obtain the real-time volume in the wastewater volume data corresponding to each road and mark the value;

Obtain the real-time flow velocity and real-time flow in the wastewater flow data corresponding to each road and mark the value;

Obtain the road weight and the standard volume of waste water recovery corresponding to each road and mark the values respectively; combine each marked data item to obtain the waste water recovery degree corresponding to the road;

Match the wastewater recovery degree with the preset wastewater recovery thresholds FHYmin and FHYmax to obtain the first evaluation signal and the first target road, the second evaluation signal and the second target road, the third evaluation signal and the third target road and the target road. Wastewater evaluation set of road ranking data.

Preferably, the real-time traffic is analyzed and the duration of the monitoring and evaluation period is dynamically adjusted.

Preferably, according to the wastewater assessment set, the status of wastewater recycling for several different types of roads is prompted and the schedule is generated, including:

According to the status of several first target roads, second target roads and third target roads in the wastewater assessment set, different colors will be prompted; and according to the sorting data of target roads, recyclers will be dispatched to process wastewater recycling; Real-time coordinates and set them as the first coordinates, and obtain the position coordinates of all the third target roads in the target road ranking data and set them as the second coordinates, and dynamically allocate different recycling according to the first coordinates and the second coordinates staff to deal with wastewater recycling in different emergency situations.

Preferably, different recyclers are dynamically allocated according to the first coordinates and the second coordinates to process wastewater recycling in different emergency states; including:

Obtain the shortest movable distance between the recycler and all the third target roads according to the first coordinate and the second coordinate, respectively extract several values of the shortest movable distance and mark them; arrange the marked shortest movable distances in descending order , get the distance sorted set;

Simultaneously obtain the scheduling value from the distance sorting set and the state degree of the road corresponding to the shortest movable distance; arrange several scheduling values in descending order, and set the third target road corresponding to the first scheduling value as the selected road, and Dispatch recyclers to selected roads to treat recycled wastewater.

Preferably, the method for obtaining the state degree of the road corresponding to the shortest movable distance includes:

Count the total distance, the total number of passable lanes and the total number of vehicles of the road corresponding to the shortest movable distance, extract the values of the total distance, the total number of passable lanes and the total number of vehicles respectively, mark and combine them to obtain the status of the road corresponding to the shortest movable distance Spend.

Compared with the existing scheme, the beneficial effects that the present invention can achieve are:

The present invention collects and counts the data of different types of roads, and collects and counts various data collected from different types of road wastewater from different aspects, so that the frequency of monitoring can be adaptively adjusted dynamically according to the real-time flow, and the frequency of monitoring can be effectively improved. The monitoring effect of different types of road wastewater recovery, by analyzing, evaluating and classifying the status of different types of road wastewater recovery, it is possible to deal with emergency road wastewater recovery adaptive dispatch recyclers, which can effectively improve different types of road wastewater recovery. Treatment effect of road wastewater recycling.

Description of drawings

FIG. 1 is a schematic diagram of a module of a road wastewater recycling and utilization regulation system provided by an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an electronic device for implementing a road wastewater recovery and utilization regulation system according to an embodiment of the present invention.

The object realization, functional features and advantages of the present invention will be further described with reference to the accompanying drawings in conjunction with the embodiments.

Detailed ways

It should be understood that the specific embodiments described herein are only used to explain the present invention, but not to limit the present invention.

The embodiments of the present application provide a road wastewater recycling and utilization adjustment system. The executive body of the road wastewater recycling and adjustment system includes, but is not limited to, at least one of the electronic devices that can be configured to execute the method provided by the embodiments of the present application, such as a server, a terminal, and the like. In other words, the system for regulating the recycling and utilization of road wastewater can be executed by software or hardware installed in a terminal device or a server device, and the software can be a blockchain platform. The server includes but is not limited to: a single server, a server cluster, a cloud server or a cloud server cluster, etc.

Example 1:

Referring to FIG. 1 , a road wastewater recovery and utilization regulation system provided by an embodiment of the present invention includes several different types of roads, a monitoring front desk, and a display backend;

The monitoring front desk includes a road monitoring module and a wastewater monitoring module;

The application scenario in the embodiment of the present invention can be rainwater recycling on urban streets. By monitoring, analyzing and evaluating the rainwater recycling of different types of roads, and performing differentiated processing, different types of roads can be adaptively processed. The corresponding treatment effectively improves the overall effect of road wastewater recycling.

The road monitoring module is used to collect and classify several different types of roads that need to be recycled and reused to obtain a road monitoring set; including:

Obtain the name of the road that needs to be recycled for wastewater, and match the name of the road with the pre-built road data table to obtain the corresponding road type and its corresponding road weight;

Among them, the road type can be set and divided according to the number of one-way lanes. Different types of roads include but are not limited to one-way lanes, one-way two-lanes and one-way three-lanes. The greater the number of one-way lanes, the corresponding The greater the road weight; the road data table consists of several different road names, road types and their corresponding road weights, and a corresponding road weight is preset for different road types;

Obtain the corresponding standard volume of wastewater recovery according to the road type; the standard volume of wastewater recovery is determined by the wastewater recovery equipment, which can be a water storage tank. The more the number of one-way lanes on the road, the larger the corresponding standard volume of wastewater recovery;

Several road types, road weights and standard volumes of wastewater recycling constitute the road monitoring set;

It should be noted that, by distinguishing different types of roads and obtaining the corresponding road weights and standard volume of wastewater recycling, data collection is carried out from the road side, so that different types of roads can be represented differently and digitally, and can also be used for The dynamic distribution and treatment of subsequent road wastewater recycling provides effective data support.

The waste water monitoring module is used to monitor the waste water recycling of several different types of roads in the road monitoring set, and obtain the waste water monitoring set; including:

Obtain the real-time volume of recycled wastewater of several different types of roads, and several real-time volumes constitute wastewater volume data;

Among them, the real-time volume of recycled wastewater can be obtained based on the existing calculation scheme based on the current flow rate and flow rate of the recycled wastewater by the water flow velocity sensor and the water flow sensor, and combined with the recycling time;

Obtain the real-time flow rate and real-time flow of recycled wastewater on several different types of roads, and the real-time flow rate and real-time flow of recycled wastewater on several different types of roads constitute wastewater flow data;

Wastewater volume data and wastewater flow data constitute a wastewater monitoring set;

In the embodiment of the present invention, statistics are performed on various real-time data of different types of roads, so as to provide effective data support for the state evaluation of wastewater recovery of various types of roads, so as to realize the differentiation of different types of roads analysis evaluation.

The display background includes a wastewater analysis and evaluation module and a recycling prompt module;

The wastewater analysis and evaluation module is used to analyze and evaluate the wastewater recovery state of the road according to the wastewater monitoring data in the wastewater monitoring set, and obtain a wastewater evaluation set; including:

The wastewater volume data and wastewater flow data are processed according to the preset monitoring and evaluation period; the preset monitoring and evaluation period can be 30 minutes, that is, data calculation and analysis are performed every 30 minutes;

Obtain the real-time volume in the wastewater volume data corresponding to each road and mark the value as C1;

Obtain the real-time flow velocity and real-time flow in the wastewater flow data corresponding to each road, and mark the values as C2 and C3 respectively;

Obtain the road weight corresponding to each road and the standard volume of waste water recovery and mark the values as C4 and C5 respectively; combine the marked data items and obtain the corresponding waste water recovery degree FH by formula calculation; the formula is:

FH=C4×[a1×(C5-C1)+a2×(C2-C20)+a3×(C3-C30)];

In the formula, a1, a2, and a3 represent different coefficients that are all greater than zero, C20 represents the average flow rate corresponding to the road type, C30 represents the average flow rate corresponding to the road type, and the preset proportional coefficient in the formula is determined by the technology in the art. The personnel set according to the actual situation or obtained through a large amount of data simulation, for example, a1 can be 3.624, a2 can be 1.713, a3 can be 2.559, a1>a3>a2, indicating that the data item corresponding to a1 is greater than For the data item corresponding to a3 and the data item corresponding to a2, in the case of the same road weight, the larger the real-time volume, real-time flow, and real-time flow velocity of road wastewater recovery, the greater the corresponding wastewater recovery degree. Indicates that the wastewater recovery status of the corresponding road is more urgent and needs to be treated;

Among them, the average flow corresponding to the road type refers to the average real-time flow velocity of all roads in each type of three-lane, two-lane and single-lane;

Obtain the traffic threshold corresponding to each road type, and match the real-time traffic corresponding to each road type with the traffic threshold;

If the real-time flow corresponding to the road type is less than or equal to the flow threshold, it means that the corresponding waste water recycling flow is normal;

If the real-time flow corresponding to the road type is greater than the flow threshold but the duration is less than g, where g is a positive integer greater than zero, and can be 20 in minutes, it indicates that the corresponding wastewater recycling flow is slightly abnormal, and a first warning is generated. Instruction; it can be understood that the amount of rain exceeds the preset rainwater standard but the duration is lower than the rainwater time standard;

If the real-time flow corresponding to the road type is greater than the flow threshold and the duration is not less than g, it means that the corresponding wastewater recycling flow is moderately abnormal, and a second warning command is generated; it can be understood that the rainwater volume is too large and the duration is long;

Adjust the monitoring and evaluation period according to the first early warning instruction and the second early warning instruction, wherein the evaluation period after the monitoring and evaluation period is adjusted according to the second early warning instruction is smaller than the evaluation period after the first early warning instruction is adjusted.

It should be noted that the wastewater recovery degree is a value used to evaluate the wastewater recovery status of different types of roads as a whole. Differentiated analysis and evaluation; and analysis of real-time flow and dynamic adjustment of the monitoring duration can effectively improve the monitoring effect of wastewater recovery on different types of roads.

Match the wastewater recovery degree FH with the preset wastewater recovery thresholds FHYmin and FHYmax. If FH<FHYmin, it is determined that the wastewater recovery of the corresponding road is in a normal state and a first evaluation signal is generated. marked as the first target road;

If FHYmin≤FH≤FHYmax, it is determined that the waste water recycling of the corresponding road is in an early warning state and a second evaluation signal is generated, and the corresponding road is marked as the second target road according to the second evaluation signal, and the waste water recycling of the second target road is performed. status to prompt;

If FHYmax<FH, it is determined that the wastewater recovery of the corresponding road is in an emergency state and a third evaluation signal is generated, and the corresponding road is marked as the third target road according to the third evaluation signal; Arrange in descending order to get the target road ranking data;

The first evaluation signal and the first target road, the second evaluation signal and the second target road, the third evaluation signal and the third target road, and the target road ranking data constitute a wastewater evaluation set.

In the embodiment of the present invention, by evaluating and classifying the wastewater recovery states of different types of roads, the wastewater recovery roads in an emergency state can be processed in a timely and efficient manner, and at the same time, the wastewater recovery roads in an early warning state can also be processed. Carrying out early warning reminders can effectively improve the treatment effect of wastewater recycling on different types of roads.

Example 2:

In this embodiment of the present invention, on the basis of Embodiment 1, the recycling prompt module is used to prompt and generate scheduling arrangements for the wastewater recycling status of several different types of roads according to the wastewater evaluation set, including:

According to the status of several first target roads, second target roads and third target roads in the wastewater assessment set, different colors are prompted; the prompt colors corresponding to normal state, early warning state and emergency state can be green, yellow and red, for prompt and efficient prompting;

And according to the target road sorting data, recyclers are dispatched to process wastewater recycling;

Obtain the real-time coordinates of all recyclers and set them as the first coordinates, and obtain the position coordinates of all the third target roads in the target road ranking data and set them as the second coordinates;

According to the first coordinate and the second coordinate, different recyclers are dynamically allocated to deal with wastewater recycling in different emergency states; including:

Number all the recyclers and mark them as k, k={1, 2, 3, ..., m}; m is a positive integer; obtain the recyclers and all the third targets according to the first and second coordinates The shortest movable distance between roads, extract several values of the shortest movable distance and mark them as KYJk;

Arrange the marked movable shortest distances in descending order to obtain a distance sorted set;

The distance sorting set is combined with the state degree of the road corresponding to the shortest movable distance, and the scheduling value DDk is obtained by formula calculation; the formula is:

DDk=b1×KYJk+b2×ZDk;

In the formula, b1 and b2 are expressed as different coefficients that are all greater than zero, b1 can take a value of 0.653, b2 can take a value of 2.377, and ZDk is expressed as the state degree corresponding to the road corresponding to the shortest movable distance;

It should be noted that the dispatch value is a value used to combine the distance between the recycler and the target road and the movement state to evaluate the dispatch as a whole; the shortest movable distance in the embodiment of the present invention refers to the recycler The length of the passable road to the third target road is different from the straight-line distance in the existing scheme. The shortest movable distance can achieve a more accurate and efficient scheduling effect, because the straight-line distance does not mean that the corresponding road is passable; The state degree is to analyze and evaluate the traffic state of the road. When the road is congested, it is not the best choice to assign the nearest target road to the recycler. The target road with the second closest road that is not congested can be assigned to the recycler for processing. , which can effectively improve the overall treatment effect of wastewater recycling.

Among them, the method of obtaining the state degree of the road corresponding to the shortest movable distance includes:

Count the total distance, the total number of passable lanes and the total number of vehicles of the road corresponding to the shortest movable distance, extract the total distance, the total number of passable lanes and the total number of vehicles and mark them as JCk, DZk and CZk;

Among them, the total number of passable lanes refers to the total number of one-way lanes on the road, and the total number of vehicles refers to all the vehicles on the road at the moment of statistics;

Combine the marked total distance JCk, the total number of passable lanes DZk and the total number of vehicles CZk, and calculate the state degree ZDk of the road corresponding to the shortest movable distance by formula calculation; the formula is:

ZDk=(c1×CZk+c2×JCk)/(c3×DZk+0.7534);

In the formula, c1, c2, and c3 are expressed as different proportional coefficients that are all greater than zero. c1 can take a value of 3.837, c2 can take a value of 2.653, and c3 can take a value of 1.455; When the total distance and the shortest movable distance are the same, the greater the total number of vehicles, the greater the corresponding state degree, which means the worse the traffic state of the corresponding road;

Arrange several dispatching values in descending order, set the third target road corresponding to the first dispatching value as the selected road, dispatch recyclers to the selected road to process the recycled wastewater, and then recalculate the dispatching value. calculation and analysis.

In the embodiment of the present invention, the state degree is a value obtained by combining the data of the total distance of the road, the total number of passable lanes, and the total number of vehicles to evaluate the traffic state of the road as a whole; When the total number is large and the total number of vehicles is small, the traffic status of the corresponding road will be better. By simultaneously analyzing various data items of different aspects of the road, the overall treatment effect of the road wastewater recovery and treatment can be effectively improved; and the above formulas are all removed The dimension is calculated by its numerical value, and a formula closest to the real situation is obtained by collecting a large amount of data for software simulation and training.

Example 3:

As shown in FIG. 2 , it is a schematic structural diagram of an electronic device for realizing a road wastewater recycling and utilization regulation system provided by an embodiment of the present invention.

The electronic device may include a processor, a memory, and a bus, and may also include a computer program stored in the memory and executable on the processor, such as a road waste water recycling regulation program.

Wherein, the memory includes at least one type of readable storage medium, and the readable storage medium includes flash memory, mobile hard disk, multimedia card, card-type memory (for example: SD or DX memory, etc.), magnetic memory, magnetic disk, optical disk, etc. The memory may in some embodiments be an internal storage unit of the electronic device, such as a removable hard disk of the electronic device. In other embodiments, the memory may also be an external storage device of the electronic device, such as a pluggable mobile hard disk, a smart memory card (Smart Media Card, SMC), a Secure Digital (SD) card, Flash card (FlashCard) and so on. Further, the memory may also include both an internal storage unit of the electronic device and an external storage device. The memory can not only be used to store application software and various data installed in the electronic device, such as a code of a road wastewater recycling adjustment program, etc., but also can be used to temporarily store the data that has been output or will be output.

In some embodiments, the processor may be composed of integrated circuits, for example, may be composed of a single packaged integrated circuit, or may be composed of multiple integrated circuits packaged with the same function or different functions, including one or more central processing units (Central Processing Unit, CPU), microprocessor, digital processing chip, graphics processor and combination of various control chips, etc. The processor is the control core (Control Unit) of the electronic equipment. It uses various interfaces and lines to connect the various components of the entire electronic equipment. ), and call data stored in the memory to perform various functions of the electronic device and process data.

The bus may be a peripheral component interconnect (PCI for short) bus or an extended industry standard architecture (extended industry standard architecture, EISA for short) bus, or the like. The bus can be divided into address bus, data bus, control bus and so on. A bus is provided to enable connection communication between the memory and at least one processor or the like.

FIG. 2 only shows an electronic device with components. Those skilled in the art can understand that the structure shown in FIG. 2 does not constitute a limitation on the electronic device, and may include fewer or more components than those shown in the drawings. , or a combination of certain components, or a different arrangement of components.

For example, although not shown, the electronic device may also include a power source (such as a battery) for powering the various components, preferably, the power source may be logically connected to the at least one processor through a power management device, so that charge management is implemented through the power management device , discharge management, and power management functions. The power source may also include one or more DC or AC power sources, recharging devices, power failure detection circuits, power converters or inverters, power status indicators, and any other components. The electronic device may also include a variety of sensors, Bluetooth modules, Wi-Fi modules, etc., which will not be repeated here.

Further, the electronic device may also include a network interface. Optionally, the network interface may include a wired interface and/or a wireless interface (such as a WI-FI interface, a Bluetooth interface, etc.), which is usually used between the electronic device and other electronic devices. establish a communication connection.

Optionally, the electronic device may further include a user interface, and the user interface may be a display (Display), an input unit (such as a keyboard (Keyboard)), optionally, the user interface may also be a standard wired interface or a wireless interface. Optionally, in some embodiments, the display may be an LED display, a liquid crystal display, a touch-sensitive liquid crystal display, an OLED (Organic Light-Emitting Diode, organic light-emitting diode) touch device, and the like. The display may also be appropriately called a display screen or a display unit, which is used for displaying information processed in the electronic device and for displaying a visual user interface.

It should be understood that the embodiments are only used for illustration, and are not limited by this structure in the scope of the patent application.

A road wastewater recycling adjustment program stored in the memory of the electronic device is a combination of multiple instructions. Specifically, for the specific implementation method of the above instructions by the processor, refer to the description of the relevant steps in the corresponding embodiments of FIG. 1 to FIG. 2 , I won't go into details here.

Further, if the modules/units integrated in the electronic device are implemented in the form of software functional units and sold or used as independent products, they may be stored in a computer-readable storage medium. Computer-readable storage media can be volatile or non-volatile. For example, the computer-readable medium may include: any entity or device capable of carrying the computer program code, recording medium, U disk, removable hard disk, magnetic disk, optical disk, computer memory, read-only memory (ROM, Read-Only Memory) .

The present invention also provides a computer-readable storage medium, where the readable storage medium stores a computer program, and the computer program is executed by a processor of an electronic device.

In the several embodiments provided by the present invention, it should be understood that the disclosed apparatus, apparatus and method may be implemented in other manners. For example, the apparatus embodiments described above are only illustrative. For example, the division of modules is only a logical function division, and other division manners may be used in actual implementation.

Modules described as separate components may or may not be physically separated, and components shown as modules may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution in this embodiment.

In addition, each functional module in each embodiment of the present invention may be integrated into one processing unit, or each unit may exist physically alone, or two or more units may be integrated into one unit. The above-mentioned integrated units can be implemented in the form of hardware, or can be implemented in the form of hardware plus software function modules.

It will be apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, but that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention.

The blockchain referred to in the present invention is a new application mode of computer technologies such as distributed data storage, point-to-point transmission, consensus mechanism, and encryption algorithm. Blockchain, essentially a decentralized database, is a series of data blocks associated with cryptographic methods. Each data block contains a batch of network transaction information to verify its Validity of information (anti-counterfeiting) and generation of the next block. The blockchain can include the underlying platform of the blockchain, the platform product service layer, and the application service layer.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention and not to limit them. Although the present invention has been described in detail with reference to the preferred embodiments, those of ordinary skill in the art should understand that the technical solutions of the present invention can be Modifications or equivalent substitutions can be made without departing from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. a road waste water recycling regulation system, is characterized in that, comprises several different types of roads, monitoring foreground and display background; Monitoring front desk: collect and classify several different types of roads that need to be recycled to obtain a road monitoring set; monitor the wastewater recycling of several different types of roads in the road monitoring set to obtain a wastewater monitoring set; Display background: analyze and evaluate the wastewater recovery status of the road according to the wastewater monitoring data in the wastewater monitoring set, and obtain the wastewater evaluation set; According to the wastewater evaluation set, the status of wastewater recovery of several different types of roads is prompted and the schedule is generated. 2. A kind of road waste water recycling regulation system as claimed in claim 1, is characterized in that, collecting and classifying the roads that need to carry out waste water recycling, comprising: Obtain the name of the road that needs to be recycled for wastewater, and match the name of the road with the pre-built road data table to obtain the corresponding road type and its corresponding road weight; Obtain the corresponding standard volume of wastewater recycling according to the road type; Several road types, road weights, and standard volumes for wastewater recovery constitute the road monitoring set. 3. A kind of road waste water recycling regulation system as claimed in claim 2 is characterized in that, monitoring the waste water recycling of several different types of roads in the road monitoring set, including: Obtain the real-time volume of recycled wastewater of several different types of roads, and several real-time volumes constitute wastewater volume data; Obtain the real-time flow velocity and real-time flow of recycled wastewater of several different types of roads, and several real-time flows and real-time flow constitute wastewater flow data; wastewater volume data and wastewater flow data constitute a wastewater monitoring set. 4. a kind of road waste water recycling regulation system as claimed in claim 3 is characterized in that, according to waste water volume data and waste water flow data that waste water monitoring concentrates, the waste water recovery state of road is analyzed and evaluated, comprising: Process the wastewater volume data and wastewater flow data according to the preset monitoring and evaluation period; Obtain the real-time volume in the wastewater volume data corresponding to each road and mark the value; Obtain the real-time flow velocity and real-time flow in the wastewater flow data corresponding to each road and mark the value; Obtain the road weight and the standard volume of waste water recovery corresponding to each road and mark the values respectively; combine each marked data item to obtain the waste water recovery degree corresponding to the road; Match the wastewater recovery degree with the preset wastewater recovery thresholds FHYmin and FHYmax to obtain the first evaluation signal and the first target road, the second evaluation signal and the second target road, the third evaluation signal and the third target road and the target road. Wastewater evaluation set of road ranking data. 5 . The road wastewater recycling and utilization adjustment system according to claim 4 , wherein the real-time flow is analyzed and the duration of the monitoring and evaluation period is dynamically adjusted. 6 . 6. A road waste water recycling regulation system as claimed in claim 5, characterized in that, according to the waste water evaluation set, prompting and generating scheduling arrangements for the waste water recycling status of several different types of roads, comprising: According to the status of several first target roads, second target roads and third target roads in the wastewater assessment set, different colors will be prompted; and according to the sorting data of target roads, recyclers will be dispatched to process wastewater recycling; Real-time coordinates and set them as the first coordinates, and obtain the position coordinates of all the third target roads in the target road ranking data and set them as the second coordinates, and dynamically allocate different recycling according to the first coordinates and the second coordinates staff to deal with wastewater recycling in different emergency situations. 7. A road waste water recycling regulation system as claimed in claim 6, characterized in that, according to the first coordinate and the second coordinate, different recyclers are dynamically allocated to process the waste water recycling in different emergency states; comprising: Obtain the shortest movable distance between the recycler and all the third target roads according to the first coordinate and the second coordinate, respectively extract several values of the shortest movable distance and mark them; arrange the marked shortest movable distances in descending order , get the distance sorted set; Simultaneously obtain the scheduling value from the distance sorting set and the state degree of the road corresponding to the shortest movable distance; arrange several scheduling values in descending order, and set the third target road corresponding to the first scheduling value as the selected road, and Dispatch recyclers to selected roads to treat recycled wastewater. 8. A road waste water recycling regulation system according to claim 7, characterized in that, the method for obtaining the state degree of the road corresponding to the shortest movable distance comprises: Count the total distance, the total number of passable lanes and the total number of vehicles of the road corresponding to the shortest movable distance, extract the values of the total distance, the total number of passable lanes and the total number of vehicles respectively, mark and combine them to obtain the status of the road corresponding to the shortest movable distance Spend.

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