CN111262922B - Visual environmental protection equipment service management system based on big data - Google Patents

Abstract

The invention discloses a visual environment-friendly equipment service management system based on big data, which is used for solving the problem that the existing environment-friendly equipment service management system cannot reasonably distribute corresponding maintenance personnel to enterprises to cause inconvenient maintenance; the system comprises an equipment acquisition module, an equipment detection module, a server, a distribution calculation module, a maintenance statistics module, a registration login module and a visual display module; the equipment acquisition module is used for acquiring equipment information of the environment-friendly equipment; the equipment detection module is used for detecting and analyzing the working information of the environment-friendly equipment, and the distribution calculation module is used for distributing the environment-friendly equipment to be maintained to corresponding maintenance personnel; through analyzing the equipment maintenance value of maintenance personnel, the environmental protection equipment of enterprises is conveniently distributed to the corresponding maintenance personnel for maintenance.

Description

Visual environmental protection equipment service management system based on big data

Technical Field

The invention relates to the technical field of service management of environmental protection equipment, in particular to a visual environmental protection equipment service management system based on big data.

Background

The environmental protection equipment refers to mechanical processing products for treating environmental pollution, such as dust collectors, welding fume purifiers, monomer water treatment equipment, noise controllers and the like. This knowledge is not comprehensive. The environment-friendly equipment also comprises power equipment for conveying the fluid substance containing the pollutants, such as a water pump, a fan, a conveyor and the like; meanwhile, the device also comprises monitoring and controlling instruments, such as a detecting instrument, a pressure gauge, a flow monitoring device and the like, which ensure the normal operation of the pollution prevention and control facility. Environmental governance is a very slow matter, and people should pay more attention to environmental protection. The environment-friendly equipment can improve or treat the environment in industry or at home.

In patent CN106341446A, although the system can realize the transition from a passive artificial management mode to an active system-level management mode, the system can complete the construction of the whole system only by using the operating environment provided by the cloud computing service, which saves manpower and material resources and can effectively assist the implementation of the national environmental protection policy; but has the following disadvantages: the corresponding maintenance personnel cannot be reasonably allocated to the enterprise, so that the maintenance is inconvenient.

Disclosure of Invention

The invention aims to provide a visual environment-friendly equipment service management system based on big data, which is convenient for reasonably screening maintenance personnel to maintain environment-friendly equipment by sending instructions to the maintenance personnel and carrying out optimization; through analyzing the equipment maintenance value of maintenance personnel, the environmental protection equipment of enterprises is conveniently distributed to the corresponding maintenance personnel for maintenance.

The technical problem to be solved by the invention is as follows:

1. how to obtain a value to be maintained by sending an instruction to a maintenance worker and analyzing the instruction, and optimizing the maintenance worker according to the value to be maintained, so that the maintenance worker can be screened out reasonably to maintain the environmental protection equipment conveniently, and the problem that the maintenance is inconvenient because the existing environmental protection equipment service management system cannot reasonably distribute corresponding maintenance workers to enterprises is solved;

the purpose of the invention can be realized by the following technical scheme: a visual environment-friendly equipment service management system based on big data comprises an equipment acquisition module, an equipment detection module, a server, a distribution calculation module, a maintenance statistics module, a registration login module and a visual display module;

the equipment acquisition module is used for acquiring equipment information of the environment-friendly equipment and sending the equipment information to the server;

the equipment detection module is used for detecting and analyzing the working information of the environment-friendly equipment, and the specific analysis steps are as follows:

the method comprises the following steps: marking the environment-friendly equipment as Hi, i-1, … … and n;

step two: setting the temperature of the environmental protection equipment as Tj_HiJ is 1, … …, n; the decibel value of the environmental protection equipment is recorded as Fj_Hi(ii) a The current value of the environmental protection equipment is recorded as Dj_Hi；

Step three: using formulas

Obtaining the maintenance value W of the environmental protection equipment_Hi(ii) a Wherein b1, b2 and b3 are all preset proportionality coefficients; DA_HiA preset current value corresponding to the environmental protection equipment;

step four: when the maintenance value of the environment-friendly equipment is larger than a set threshold value, a maintenance instruction is generated, and the equipment detection module sends the maintenance instruction to the distribution calculation module through the server;

the distribution calculation module is used for distributing the environmental protection equipment needing to be maintained to corresponding maintenance personnel, and the specific distribution steps are as follows:

s1: the distribution calculation module receives the maintenance instruction and marks the corresponding environmental protection equipment as equipment to be maintained;

s2: acquiring a maintainer side corresponding to the model of the equipment to be maintained and marking the maintainer side as a primary selection person;

s3: the allocation calculation module sends a maintenance request instruction to a mobile phone terminal of the primary selection person, and starts timing at the same time, the primary selection person receives the maintenance request instruction and sends a confirmation instruction to the allocation calculation module, and the allocation calculation module stops timing at the same time;

s4: calculating the time difference between the stop timing and the start timing and marking as the confirmation duration; judging the confirmation time length, and marking the primary selected person as a preferred person when the confirmation time length is less than a set threshold value; denoted by the symbol Rk, k ═ 1, … …, n; setting the confirmation duration as T_Rk；

S5: the allocation calculation module sends a positioning request instruction to the mobile phone terminal of the preferred person, and the mobile phone terminal of the preferred person receives the positioning request instruction and sends the current position to the allocation calculation module;

s6: calculating the distance difference through the current position of the preferred personnel and the position coordinates of the equipment to be repaired, and marking as G_Rk；

S7: using formulas

Obtaining the value W to be maintained of the optimized personnel_Rk(ii) a B4, b5, b6, b7, b8 and b9 are all preset proportionality coefficients; m1_RkTotal number of repairs for preferred personnel; m2_RkThe number of the environmental protection equipment to be maintained is optimized; WJ_RkEquipment maintenance value for preferred personnel; m3_RkThe total maintenance times of the preferential personnel at the company corresponding to the equipment to be maintained;

s8: selecting the optimal person with the maximum value to be maintained as the selected person; meanwhile, the number of the environmental protection equipment to be maintained of the selected personnel is increased by one;

s9: and the distribution calculation module sends the equipment information of the equipment to be maintained to the mobile phone terminal of the selected person.

Preferably, the device information includes a model number of the eco-device, a location coordinate, a corresponding company name, and installation time and power-on time of the eco-device; the environment-friendly equipment comprises a dust remover and a welding fume purifier; the working information comprises the working internal temperature, the working current value and the working decibel value of a motor or a fan in the environment-friendly equipment.

Preferably, the registration login module is used for submitting personnel information for registration by maintenance personnel and sending the maintenance personnel who are successfully registered to the server for storage; the personnel information comprises names, mobile phone numbers, and names and models of maintenance and environmental protection equipment.

Preferably, the maintenance statistical module is used for counting the equipment maintenance value of a maintenance worker; the specific statistical steps are as follows:

SS 1: the maintenance personnel arrive at the place of the equipment to be maintained and send the current positioning to the maintenance statistical module through the mobile phone terminal; the maintenance statistical module acquires equipment information of equipment to be maintained of the maintenance personnel and performs position matching; after the position matching is successful, sending a maintenance starting instruction to a mobile phone terminal of a maintenance worker; meanwhile, the maintenance statistical module starts timing;

SS 2: the maintenance personnel maintain after receiving the maintenance starting instruction, and send a maintenance completing instruction to the maintenance statistics module after the maintenance is completed; the maintenance counting module receives the maintenance completion instruction, stops timing and calculates the maintenance duration of maintenance personnel; meanwhile, the total maintenance times of the maintenance personnel are increased once, the number of the environment-friendly equipment to be maintained is reduced by one, and the total maintenance times of a company corresponding to the equipment to be maintained is increased once;

SS 3: the maintenance counting module counts the time of the equipment to be maintained after the maintenance is finished again, and when the equipment detection module analyzes the equipment to be maintained and generates a maintenance instruction, the time is stopped to be counted, and the time difference is calculated to obtain the operation time length after the maintenance of the maintenance personnel;

SS 4: setting the maintenance duration as TW 1; the running time length is recorded as TW 2; the power-on duration of the equipment to be repaired is marked as TW 4;

SS 5: obtaining the installation duration of the equipment to be maintained through the current time and the installation time of the system, and marking the installation duration as TW 3;

SS 6: using formulas

Obtaining a single maintenance value WHg of a maintenance worker, wherein c1, c2 and c3 are all preset proportionality coefficients; y is waiving for vitaminRepairing the preset maintenance time of the equipment; g is 1, … …, n;

SS 7: using formulas

Obtaining the equipment maintenance value WJ of the maintenance personnel_Rk；

SS 8: and the maintenance counting module sends the equipment maintenance value to the server for storage.

Preferably, the visual display module is used for converting the total maintenance times of maintenance personnel, the number of the environmental protection equipment to be maintained, the equipment maintenance value and the total maintenance times of a company corresponding to the equipment into graphs or images and displaying the graphs or the images.

Compared with the prior art, the invention has the beneficial effects that:

1. the equipment detection module detects the working information of the environment-friendly equipment and analyzes the working information to generate a maintenance instruction, and the equipment detection module sends the maintenance instruction to the distribution calculation module through the server; the distribution calculation module is used for distributing the environmental protection equipment needing to be maintained to corresponding maintenance personnel, receiving the maintenance instruction and marking the corresponding environmental protection equipment as equipment to be maintained; acquiring a maintainer side corresponding to the model of the equipment to be maintained and marking the maintainer side as a primary selection person; the allocation calculation module sends a maintenance request instruction to a mobile phone terminal of the primary selection person, and starts timing at the same time, the primary selection person receives the maintenance request instruction and sends a confirmation instruction to the allocation calculation module, and the allocation calculation module stops timing at the same time; calculating the time difference between the stop timing and the start timing and marking as the confirmation duration; judging the confirmation time length, and marking the primary selected person as a preferred person when the confirmation time length is less than a set threshold value; the allocation calculation module sends a positioning request instruction to the mobile phone terminal of the preferred person, and the mobile phone terminal of the preferred person receives the positioning request instruction and sends the current position to the allocation calculation module; calculating to obtain a distance difference through the current position of the optimized personnel and the position coordinates of the equipment to be maintained, and obtaining a value to be maintained of the optimized personnel by using a formula; selecting the optimal person with the maximum value to be maintained as the selected person; the distribution calculation module sends the equipment information of the equipment to be maintained to the mobile phone terminal of the selected person; by sending an instruction to maintenance personnel and carrying out optimization, the maintenance personnel can be conveniently and reasonably screened out to maintain the environment-friendly equipment;

2. the maintenance statistical module is used for counting the equipment maintenance value of maintenance personnel; the maintenance personnel arrive at the place of the equipment to be maintained and send the current positioning to the maintenance statistical module through the mobile phone terminal; the maintenance statistical module acquires equipment information of equipment to be maintained of the maintenance personnel and performs position matching; after the position matching is successful, sending a maintenance starting instruction to a mobile phone terminal of a maintenance worker; meanwhile, the maintenance statistical module starts timing; the maintenance personnel maintain after receiving the maintenance starting instruction, and send a maintenance completing instruction to the maintenance statistics module after the maintenance is completed; the maintenance counting module receives the maintenance completion instruction, stops timing and calculates the maintenance duration of maintenance personnel; the maintenance counting module counts the time of the equipment to be maintained after the maintenance is finished again, and when the equipment detection module analyzes the equipment to be maintained and generates a maintenance instruction, the time is stopped to be counted, and the time difference is calculated to obtain the operation time length after the maintenance of the maintenance personnel; the formula is used for acquiring a single maintenance value of a maintenance person, the formula is used for acquiring an equipment maintenance value of the maintenance person, and the environmental protection equipment of an enterprise is conveniently distributed to the corresponding maintenance person to be maintained by analyzing the equipment maintenance value of the maintenance person.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic block diagram of a visual environmental protection equipment service management system based on big data according to the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a visual environment-friendly equipment service management system based on big data includes an equipment acquisition module, an equipment detection module, a server, an allocation calculation module, a maintenance statistics module, a registration module and a visual display module;

the equipment acquisition module is used for acquiring equipment information of the environment-friendly equipment and sending the equipment information to the server; the equipment information comprises the model and the position coordinates of the environmental protection equipment, the corresponding company name, and the installation time and the power-on time of the environmental protection equipment; the environment-friendly equipment comprises a dust remover, a welding fume purifier and the like; the equipment detection module is used for detecting and analyzing the working information of the environment-friendly equipment, wherein the working information comprises the working internal temperature, the working current value and the working decibel value of a motor or a fan in the environment-friendly equipment; the specific analysis steps are as follows:

the method comprises the following steps: marking the environment-friendly equipment as Hi, i-1, … … and n;

step two: setting the temperature of the environmental protection equipment as Tj_HiJ is 1, … …, n; the decibel value of the environmental protection equipment is recorded as Fj_Hi(ii) a The current value of the environmental protection equipment is recorded as Dj_Hi；

Step three: using formulas

Obtaining the maintenance value W of the environmental protection equipment_Hi(ii) a Wherein b1, b2 and b3 are all preset proportionality coefficients; DA_HiA preset current value corresponding to the environmental protection equipment; the larger the decibel value is, the larger the maintenance value is, and the higher the maintenance probability of the environmental protection equipment is represented; the higher the temperature of the environment-friendly equipment is, the higher the maintenance value is; the more the current value of the environmental protection equipment deviates from the preset current value, the larger the maintenance value is;

step four: when the maintenance value of the environment-friendly equipment is larger than a set threshold value, a maintenance instruction is generated, and the equipment detection module sends the maintenance instruction to the distribution calculation module through the server;

the distribution calculation module is used for distributing the environmental protection equipment needing to be maintained to corresponding maintenance personnel, and the specific distribution steps are as follows:

s1: the distribution calculation module receives the maintenance instruction and marks the corresponding environmental protection equipment as equipment to be maintained;

s2: acquiring a maintainer side corresponding to the model of the equipment to be maintained and marking the maintainer side as a primary selection person;

s3: the allocation calculation module sends a maintenance request instruction to a mobile phone terminal of the primary selection person, and starts timing at the same time, the primary selection person receives the maintenance request instruction and sends a confirmation instruction to the allocation calculation module, and the allocation calculation module stops timing at the same time;

s4: calculating the time difference between the stop timing and the start timing and marking as the confirmation duration; judging the confirmation time length, and marking the primary selected person as a preferred person when the confirmation time length is less than a set threshold value; denoted by the symbol Rk, k ═ 1, … …, n; setting the confirmation duration as T_Rk；

S5: the allocation calculation module sends a positioning request instruction to the mobile phone terminal of the preferred person, and the mobile phone terminal of the preferred person receives the positioning request instruction and sends the current position to the allocation calculation module;

s6: calculating the distance difference through the current position of the preferred personnel and the position coordinates of the equipment to be repaired, and marking as G_Rk；

S7: using formulas

Obtaining the value W to be maintained of the optimized personnel_Rk(ii) a B4, b5, b6, b7, b8 and b9 are all preset proportionality coefficients; m1_RkTotal number of repairs for preferred personnel; m2_RkThe number of the environmental protection equipment to be maintained is optimized; WJ_RkEquipment maintenance value for preferred personnel; m3_RkThe total maintenance times of the preferential personnel at the company corresponding to the equipment to be maintained; the method has the advantages that the smaller the distance difference is, the larger the value to be maintained is, the higher the probability that the preferred personnel is selected to maintain the equipment to be maintained is; the higher the speed of the preferred personnel sending the confirmation instruction is, the larger the value to be maintained is; the more the total maintenance times of the optimization personnel are, the larger the value to be maintained is, and the total maintenance times of the optimization personnel in the company corresponding to the equipment to be maintainedThe more, the larger the value to be maintained is, the smaller the number of the environment-friendly equipment to be maintained of the preferable personnel is, the larger the value to be maintained is, and the larger the value to be maintained is;

s8: selecting the optimal person with the maximum value to be maintained as the selected person; meanwhile, the number of the environmental protection equipment to be maintained of the selected personnel is increased by one;

s9: the distribution calculation module sends the equipment information of the equipment to be maintained to the mobile phone terminal of the selected person;

the registration login module is used for submitting personnel information for registration by maintenance personnel and sending the maintenance personnel who are successfully registered to the server for storage; the personnel information comprises names, mobile phone numbers, and names and models of maintenance environment-friendly equipment;

the maintenance counting module is used for counting the equipment maintenance value of maintenance personnel; the specific statistical steps are as follows:

SS 1: the maintenance personnel arrive at the place of the equipment to be maintained and send the current positioning to the maintenance statistical module through the mobile phone terminal; the maintenance statistical module acquires equipment information of equipment to be maintained of the maintenance personnel and performs position matching; after the position matching is successful, sending a maintenance starting instruction to a mobile phone terminal of a maintenance worker; meanwhile, the maintenance statistical module starts timing;

SS 2: the maintenance personnel maintain after receiving the maintenance starting instruction, and send a maintenance completing instruction to the maintenance statistics module after the maintenance is completed; the maintenance counting module receives the maintenance completion instruction, stops timing and calculates the maintenance duration of maintenance personnel; meanwhile, the total maintenance times of the maintenance personnel are increased once, the number of the environment-friendly equipment to be maintained is reduced by one, and the total maintenance times of a company corresponding to the equipment to be maintained is increased once;

SS 3: the maintenance counting module counts the time of the equipment to be maintained after the maintenance is finished again, and when the equipment detection module analyzes the equipment to be maintained and generates a maintenance instruction, the time is stopped to be counted, and the time difference is calculated to obtain the operation time length after the maintenance of the maintenance personnel;

SS 4: setting the maintenance duration as TW 1; the running time length is recorded as TW 2; the power-on duration of the equipment to be repaired is marked as TW 4;

SS 5: obtaining the installation duration of the equipment to be maintained through the current time and the installation time of the system, and marking the installation duration as TW 3;

SS 6: using formulas

Obtaining a single maintenance value WHg of a maintenance worker, wherein c1, c2 and c3 are all preset proportionality coefficients; y is the preset maintenance duration of the equipment to be maintained; g is 1, … …, n; the maintenance time is closer to the preset maintenance time, the larger the single maintenance value is, the longer the running time of the equipment to be maintained is, the larger the single maintenance value is, the larger the electrifying time is, and the larger the maintenance time is; the longer the installation time is, the larger the single maintenance value is;

SS 7: using formulas

Obtaining the equipment maintenance value WJ of the maintenance personnel_Rk；

SS 8: and the maintenance counting module sends the equipment maintenance value to the server for storage.

The visual display module is used for converting the total maintenance times of maintenance personnel, the number of the environment-friendly equipment to be maintained, the equipment maintenance value and the total maintenance times of a company corresponding to the equipment into graphs or images and displaying the graphs or the images.

The working principle of the invention is as follows: the equipment detection module is used for detecting the working information of the environment-friendly equipment, analyzing the working information and generating a maintenance instruction, and sending the maintenance instruction to the distribution calculation module through the server; the distribution calculation module is used for distributing the environmental protection equipment needing to be maintained to corresponding maintenance personnel, receiving the maintenance instruction and marking the corresponding environmental protection equipment as equipment to be maintained; acquiring a maintainer side corresponding to the model of the equipment to be maintained and marking the maintainer side as a primary selection person; the allocation calculation module sends a maintenance request instruction to a mobile phone terminal of the primary selection person, and starts timing at the same time, the primary selection person receives the maintenance request instruction and sends a confirmation instruction to the allocation calculation module, and the allocation calculation module stops timing at the same time; calculating the time difference between the stop timing and the start timing and markingConfirming the duration; judging the confirmation time length, and marking the primary selected person as a preferred person when the confirmation time length is less than a set threshold value; the allocation calculation module sends a positioning request instruction to the mobile phone terminal of the preferred person, and the mobile phone terminal of the preferred person receives the positioning request instruction and sends the current position to the allocation calculation module; calculating to obtain the distance difference through the current position of the optimized personnel and the position coordinates of the equipment to be maintained, and utilizing a formula

Obtaining the value W to be maintained of the optimized personnel_Rk(ii) a Selecting the optimal person with the maximum value to be maintained as the selected person; the distribution calculation module sends the equipment information of the equipment to be maintained to the mobile phone terminal of the selected person; by sending an instruction to maintenance personnel and carrying out optimization, the maintenance personnel can be conveniently and reasonably screened out to maintain the environment-friendly equipment; the maintenance counting module is used for counting the equipment maintenance value of maintenance personnel; the maintenance personnel arrive at the place of the equipment to be maintained and send the current positioning to the maintenance statistical module through the mobile phone terminal; the maintenance statistical module acquires equipment information of equipment to be maintained of the maintenance personnel and performs position matching; after the position matching is successful, sending a maintenance starting instruction to a mobile phone terminal of a maintenance worker; meanwhile, the maintenance statistical module starts timing; the maintenance personnel maintain after receiving the maintenance starting instruction, and send a maintenance completing instruction to the maintenance statistics module after the maintenance is completed; the maintenance counting module receives the maintenance completion instruction, stops timing and calculates the maintenance duration of maintenance personnel; the maintenance counting module counts the time of the equipment to be maintained after the maintenance is finished again, and when the equipment detection module analyzes the equipment to be maintained and generates a maintenance instruction, the time is stopped to be counted, and the time difference is calculated to obtain the operation time length after the maintenance of the maintenance personnel; using formulas

Obtaining WHg a single repair value of the repair person, using the formula

Obtain maintenance personnelEquipment maintenance value WJ_RkAnd the environmental protection equipment of the enterprise is conveniently distributed to the corresponding maintenance personnel for maintenance through analyzing the equipment maintenance value of the maintenance personnel.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (4)

1. A visual environment-friendly equipment service management system based on big data is characterized by comprising an equipment acquisition module, an equipment detection module, a server, a distribution calculation module, a maintenance statistics module, a registration login module and a visual display module;

the equipment acquisition module is used for acquiring equipment information of the environment-friendly equipment and sending the equipment information to the server;

the equipment detection module is used for detecting and analyzing the working information of the environment-friendly equipment, and the specific analysis steps are as follows:

the method comprises the following steps: marking the environment-friendly equipment as Hi, i-1, … … and n;

step two: setting the temperature of the environmental protection equipment as Tj_HiJ is 1, … …, n; the decibel value of the environmental protection equipment is recorded as Fj_Hi(ii) a The current value of the environmental protection equipment is recorded as Dj_Hi；

Step three: using formulas

Obtaining the maintenance value W of the environmental protection equipment_Hi(ii) a Wherein b1, b2 and b3 are all preset proportionality coefficients; DA_HiA preset current value corresponding to the environmental protection equipment;

step four: when the maintenance value of the environment-friendly equipment is larger than a set threshold value, a maintenance instruction is generated, and the equipment detection module sends the maintenance instruction to the distribution calculation module through the server;

the distribution calculation module is used for distributing the environmental protection equipment needing to be maintained to corresponding maintenance personnel, and the specific distribution steps are as follows:

s1: the distribution calculation module receives the maintenance instruction and marks the corresponding environmental protection equipment as equipment to be maintained;

s2: acquiring a maintainer side corresponding to the model of the equipment to be maintained and marking the maintainer side as a primary selection person;

s3: the allocation calculation module sends a maintenance request instruction to a mobile phone terminal of the primary selection person, and starts timing at the same time, the primary selection person receives the maintenance request instruction and sends a confirmation instruction to the allocation calculation module, and the allocation calculation module stops timing at the same time;

s4: calculating the time difference between the stop timing and the start timing and marking as the confirmation duration; judging the confirmation time length, and marking the primary selected person as a preferred person when the confirmation time length is less than a set threshold value; denoted by the symbol Rk, k ═ 1, … …, n; setting the confirmation duration as T_Rk；

S5: the allocation calculation module sends a positioning request instruction to the mobile phone terminal of the preferred person, and the mobile phone terminal of the preferred person receives the positioning request instruction and sends the current position to the allocation calculation module;

s6: calculating the distance difference through the current position of the preferred personnel and the position coordinates of the equipment to be repaired, and marking as G_Rk；

S7: using formulas

Obtaining the value W to be maintained of the optimized personnel_Rk(ii) a B4, b5, b6, b7, b8 and b9 are all preset proportionality coefficients; m1_RkTotal number of repairs for preferred personnel; m2_RkThe number of the environmental protection equipment to be maintained is optimized; WJ_RkEquipment maintenance value for preferred personnel; m3_RkThe total maintenance times of the preferential personnel at the company corresponding to the equipment to be maintained;

s8: selecting the optimal person with the maximum value to be maintained as the selected person; meanwhile, the number of the environmental protection equipment to be maintained of the selected personnel is increased by one;

s9: the distribution calculation module sends the equipment information of the equipment to be maintained to the mobile phone terminal of the selected person;

the maintenance counting module is used for counting the equipment maintenance value of a maintenance worker; the specific statistical steps are as follows:

SS 1: the maintenance personnel arrive at the place of the equipment to be maintained and send the current positioning to the maintenance statistical module through the mobile phone terminal; the maintenance statistical module acquires equipment information of equipment to be maintained of the maintenance personnel and performs position matching; after the position matching is successful, sending a maintenance starting instruction to a mobile phone terminal of a maintenance worker; meanwhile, the maintenance statistical module starts timing;

SS 2: the maintenance personnel maintain after receiving the maintenance starting instruction, and send a maintenance completing instruction to the maintenance statistics module after the maintenance is completed; the maintenance counting module receives the maintenance completion instruction, stops timing and calculates the maintenance duration of maintenance personnel; meanwhile, the total maintenance times of the maintenance personnel are increased once, the number of the environment-friendly equipment to be maintained is reduced by one, and the total maintenance times of a company corresponding to the equipment to be maintained is increased once;

SS 3: the maintenance counting module counts the time of the equipment to be maintained after the maintenance is finished again, and when the equipment detection module analyzes the equipment to be maintained and generates a maintenance instruction, the time is stopped to be counted, and the time difference is calculated to obtain the operation time length after the maintenance of the maintenance personnel;

SS 4: setting the maintenance duration as TW 1; the running time length is recorded as TW 2; the power-on duration of the equipment to be repaired is marked as TW 4;

SS 5: obtaining the installation duration of the equipment to be maintained through the current time and the installation time of the system, and marking the installation duration as TW 3;

SS 6: using formulas

Obtaining a single maintenance value WJg of a maintenance worker, wherein c1, c2 and c3 are all preset proportionality coefficients; y is waiving for vitaminRepairing the preset maintenance time of the equipment; g is 1, … …, n;

SS 7: using formulas

Obtaining the equipment maintenance value WJ of the maintenance personnel_Rk；

SS 8: and the maintenance counting module sends the equipment maintenance value to the server for storage.

2. The visual environmental protection equipment service management system based on big data according to claim 1, wherein the equipment information comprises model number of environmental protection equipment, location coordinates, corresponding company name, and installation time and power-on time of environmental protection equipment; the environment-friendly equipment comprises a dust remover and a welding fume purifier; the working information comprises the working internal temperature, the working current value and the working decibel value of a motor or a fan in the environment-friendly equipment.

3. The visual environment-friendly equipment service management system based on big data as claimed in claim 1, wherein the registration login module is used for the maintenance personnel to submit personnel information for registration and send the maintenance personnel who are successfully registered to the server for storage; the personnel information comprises names, mobile phone numbers, and names and models of maintenance and environmental protection equipment.

4. The visual environment-friendly equipment service management system based on big data as claimed in claim 1, wherein the visual display module is used for converting the total maintenance times of maintenance personnel, the number of environment-friendly equipment to be maintained, the equipment maintenance value and the total maintenance times of a company corresponding to the equipment into a graph or an image and displaying the graph or the image.

Images