CN113744436A - Internet of things fan cabin door safety anti-error control method based on two electric tickets management - Google Patents
Internet of things fan cabin door safety anti-error control method based on two electric tickets management Download PDFInfo
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07C—TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
- G07C9/00—Individual registration on entry or exit
- G07C9/00174—Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys
- G07C9/00571—Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys operated by interacting with a central unit
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07C—TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
- G07C9/00—Individual registration on entry or exit
- G07C9/00174—Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys
- G07C9/00309—Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys operated with bidirectional data transmission between data carrier and locks
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07C—TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
- G07C9/00—Individual registration on entry or exit
- G07C9/00174—Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys
- G07C9/00896—Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys specially adapted for particular uses
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16Y—INFORMATION AND COMMUNICATION TECHNOLOGY SPECIALLY ADAPTED FOR THE INTERNET OF THINGS [IoT]
- G16Y40/00—IoT characterised by the purpose of the information processing
- G16Y40/30—Control
- G16Y40/35—Management of things, i.e. controlling in accordance with a policy or in order to achieve specified objectives
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16Y—INFORMATION AND COMMUNICATION TECHNOLOGY SPECIALLY ADAPTED FOR THE INTERNET OF THINGS [IoT]
- G16Y40/00—IoT characterised by the purpose of the information processing
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Abstract
The invention relates to the technical field of fan anti-error control, and discloses an Internet of things fan cabin door safety anti-error control method based on two electric ticket management, which comprises the following steps: generating a work ticket by a terminal control system according to the basic information of the fan cabin, including the type information of a cabin door lock, basic equipment information and the type information of an equipment lock; meanwhile, the work ticket information is transmitted to a misoperation-prevention lock module of a host system in the fan cabin and a work ticket receiving module of a mobile terminal control system; the mobile control system calls and activates the unlocking code; and the host system identifies the mobile control system. Through the two-way identification screening of removal end and host computer end, utilize the host computer system to carry out identification to mobile control system to unlocking the sign indicating number information matches, thereby effectively increase the accuracy of flesh love contrast operation, guarantee the accuracy of unblanking, through two-way synchronous operation, improve the speed of unblanking, improve the efficiency of unblanking simultaneously.
Description
Technical Field
The invention relates to the technical field of fan anti-error control, in particular to a safe anti-error control method for an internet of things fan cabin door based on two-ticket power management.
Background
Wind power generation is used as a branch of an electric power system, and is different from traditional thermoelectricity in that domestic new energy wind power generation enterprises face the current situations of fan dispersion, remote position and unattended operation, and the fan is generally arranged in a place far away from villages and rare in human smoke. And the characteristics of the fan cabins are similar, no obvious characteristic difference exists, and operation and maintenance operators are easy to operate mistakenly in the daily production operation process, so that power loss is caused, and the misoperation also easily causes the life risk of maintenance personnel.
The two tickets of electric power are the work tickets and the operation tickets which are necessary to be used in the operation, the overhaul and the maintenance of the electric power equipment, namely a two-ticket system, and the two-ticket management system is used as an important management means for realizing the electronization of the two tickets by a security supervision department and is an important measure and guarantee for realizing the safety management globally.
In chinese patent with patent publication No. CN108388158A, although two tickets management system is used for management and identification of cabin door, through integrated application of electric power private line, wireless device in cabin, wireless local area intranet, mobile terminal APP, intelligent control system of fan cabin door, the personnel safety hidden trouble caused by "no handling two tickets of electric power" but entering working area is ensured, the management requirement of preventing misoperation is met, and meanwhile, the transition from "civil defense" to "technical defense" in electric power enterprises is promoted. However, the system still has the advantages that the control is single, only the cabin door lock is added to the cabin door, the recognition is carried out through two electric tickets, the effect of preventing the mistaken entry can be achieved, and the protection effect on the mistaken control is low. Meanwhile, if the requirements of maintenance and control sequences exist in part of the fan cabins or fan equipment, the invention cannot achieve the effect of monitoring the maintenance control sequences, so that although the fan cabins enter the fan cabins to be maintained, the fan cabins are not the primary objects to be maintained, the situation of error control is still caused, the working efficiency is reduced, and the risk of operators is increased.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides the safe anti-misoperation control method of the IOT fan cabin door based on two-ticket power management, which has the advantages of good anti-misoperation control effect, guarantee of accurate operation and control of operators, effective monitoring and protection effects on equipment maintenance occasions with control sequences, and further improvement of the anti-misoperation control effect.
In order to achieve the purpose, the invention provides the following technical scheme: an Internet of things fan cabin door safety anti-error control method based on two electric ticket management comprises the following steps:
s1, generating a work ticket by the terminal control system according to the basic information of the fan compartment, including compartment door lock type information, equipment basic information and equipment lock type information;
s2, transmitting the work ticket information to the anti-misoperation lock module of the host system in the fan cabin and the work ticket receiving module of the mobile terminal control system;
s3, the mobile control system calls and activates the unlocking code;
s4, the host system identifies the mobile control system;
s5, if the result is yes, performing information matching on the equipment information related to the site and the operator information lock code;
s6, if the result is negative, ending, and reminding the operation result;
s7, unlocking code matching is carried out on the locking code information;
s8, if yes, unlocking operation is carried out, information reminding is carried out, and the operation is ended;
and S9, if the result is negative, directly ending the process and reminding the result.
Preferably, the terminal control system comprises a work ticket generating module and an information associating module;
the terminal information correlation module also comprises a cabin door unlocking code generating unit, an equipment unlocking code generating unit, an unlocking code sequence unit and an unlocking code activation control unit;
the host system in the fan cabin comprises an information storage module;
the information storage module is used for storing basic information of the wind turbine cabin, and comprises control code information of internal equipment of the wind turbine cabin, an identity information code of a lock of the control equipment, category information of the lock of the control equipment, a control identity information code of a door control equipment lock and category information of the door control lock.
Preferably, the method for generating the work ticket by the terminal control system comprises the following steps:
h1, the work ticket generating module receives the information stored in the information storage module and stores the equipment information, and generates a work ticket according to the equipment information;
h2, the information correlation module generates cabin door unlocking code information according to the cabin door unlocking code generating unit, generates equipment unlocking code information according to the equipment unlocking code generating unit, sequences and sorts the unlocking code information according to the control operation sequence, and carries out deep sleep encryption;
h3, the simultaneous information correlation module is correlated with the host system and the mobile control system information, and the work ticket unlocking code information is transmitted to the host system and the mobile terminal control system.
Preferably, the mobile control system comprises a work ticket receiving module, an intelligent key module, a cabin door lock identification module, an equipment lock identification module, an unlocking code calling module, an unlocking code activating module and an information feedback module;
the work ticket receiving module is used for transmitting work ticket information by the terminal control system;
the intelligent key module is used for extracting work order unlocking code information, including cabin door lock unlocking code information and equipment lock unlocking code information, and judging and identifying sequences, deep sleep encryption states and activation states of the cabin door lock unlocking code information and the equipment lock unlocking code information;
the cabin door lock identification module is used for extracting unlocking code information of the cabin door lock and identifying a control identity information code of a door control device of a host system;
the equipment lock identification module is used for extracting unlocking code information of the equipment lock and identifying an identity information code of a host system control equipment lock;
the unlocking code calling module is used for calling the unlocking code;
the unlocking code activation module is used for judging the sequence of calling the unlocking code and the activation state and activating the unlocking code at the same time;
and the information feedback module is used for finishing information feedback after operation, and comprises the updating of the cabin door lock unlocking code and the equipment lock unlocking code activation state information.
Preferably, the method for the mobile control system to call the unlocking code information comprises the following steps:
d1, receiving the work ticket information transmitted by the terminal control system by the work ticket receiving module;
d2, the intelligent key module extracts unlocking code information in the work ticket;
d3, the cabin door lock recognition module extracts cabin door lock unlocking code information and simultaneously recognizes a host system door control equipment lock control identity information code;
d4, the equipment lock identification module extracts equipment lock unlocking code information and identifies the identity information code of the host system control equipment lock;
d5, carrying out information call on the hatch unlocking code according to the identification information of the hatch lock identification module;
d6, the unlocking code activation module carries out sequence judgment on the unlocking code, if the unlocking code is a sequence one, the unlocking code is directly activated, if the unlocking code is not the sequence one, the activation state judgment of the previous sequence is carried out, if the previous sequence is in the activation state, the activation condition is met, the unlocking code is activated, the activation code is in the recognizable calling state, if the previous sequence is in the non-activation state, the unlocking code is failed to be called, and meanwhile, calling information is output;
d7, after the door lock unlocking operation is completed, identifying the equipment lock in the fan cabin through an equipment lock identification module;
d8, extracting and calling the unlocking code of the auxiliary equipment of the cabin door lock identification code according to the identification information of the equipment lock identification module;
d9, the unlocking code activation module carries out sequence judgment on the unlocking code, if the unlocking code is a sequence one, the unlocking code is directly activated, if the unlocking code is not the sequence one, the activation state judgment of the previous sequence is carried out, if the previous sequence is in the activation state, the activation condition is met, the unlocking code is activated, the activation code is in the recognizable calling state, if the previous sequence is in the non-activation state, the unlocking code is failed to be called, and meanwhile, calling information is output;
d10, after the operation of the fan cabin is finished, the information feedback module is used for feeding back the operation finishing information, and meanwhile, the cabin door lock unlocking code activation state information and the equipment lock unlocking code identification information activation state information of the fan cabin are fed back to the intelligent key module.
Preferably, the host system further comprises an anti-misoperation lock module, an anti-misoperation information management module and a matching unlocking module;
the anti-misoperation lock module is used for managing and controlling the identity information of the wind turbine cabin door lock and the equipment lock;
the anti-misoperation information management module is used for receiving the operation information record of the work ticket and calling and extracting identity information of the cabin door lock and the equipment to be operated;
the matching unlocking module comprises an identity information matching unit, a door lock control unit and an anti-misoperation sequence identification unit;
the identity information matching unit is used for performing information matching on the equipment information and the operator information lock code related to the site;
the door lock control unit is used for unlocking code matching of the code locking information;
preferably, the method for unlocking the cabin door lock and the equipment lock comprises the following steps:
k1, the anti-misoperation lock module receives identity information of a wind turbine cabin door lock and an equipment lock and receives work ticket information at the same time;
k2, the anti-error information management module records the operation information of the work ticket, and calls and extracts the identity information of the cabin door lock and the lock of the equipment to be operated;
k3, the identity information matching unit carries out matching judgment on the identity information of the operator and the work ticket information of the anti-misoperation information management module, if the identity information is matched with the work ticket information of the anti-misoperation information management module, the output result is yes, and meanwhile, the information is fed back to the door lock control unit, if the identity information is not matched with the anti-misoperation information management module, the operation is finished directly, and meanwhile, the result is output;
k4, the door lock control unit matches the door lock unlocking code and the door control equipment lock control identity information code, if the output result is yes, the unlocking operation is carried out, the door opening process of the door lock is ended at the same time, if the output result is no, the door lock opening process is directly ended, and the result is output at the same time;
k5, the lock control unit matches according to the equipment lock unlocking code and the identity information code of the control equipment lock, if the output result is yes, the unlocking operation is carried out, meanwhile, the equipment lock door opening process is ended, the staff is enabled to carry out the equipment operation, and if the output result is no, the equipment operation is directly ended, and meanwhile, the result is output.
Has the advantages that:
1. according to the Internet of things fan cabin door safety anti-error control method based on two-ticket management of electric power, through bidirectional identification screening of the mobile terminal and the host terminal, identity identification is carried out on a mobile control system by using the host system, unlocking code matching is carried out on locking code information, so that the accuracy of muscle love contrast operation is effectively improved, the unlocking accuracy is ensured, and meanwhile, through bidirectional synchronous operation, the unlocking speed is increased, and the unlocking efficiency is improved.
2. This thing networking fan hatch door safety prevents mistake control method based on two bills of electric power management, generate hatch door unlock code information according to hatch door unlock code generation unit through the relevant module, according to equipment unlock code unit generation equipment unlock code information, and unlock code information carries out the sequence sequencing according to control operation order, and deep sleep encrypts, set up unlock code respectively through cabin door lock and equipment lock, thereby make the hatch door open and equipment operation separately carry out the mistake operation control of preventing, thereby not only reach and prevent the mistake and advance the operation, can also reach and prevent the mistake control operation, effectively improve and prevent the mistake control effect. Simultaneously, the unlocking code is subjected to deep sleep encryption, so that the use safety of the unlocking code is ensured, and the safety protection of equipment operation is improved.
3. According to the safe anti-error control method for the IOT fan cabin door based on two-ticket management of electric power, information calling is carried out on a cabin door unlocking code according to cabin door lock identification module identification information, the unlocking code is subjected to sequence judgment by an unlocking code activation module, meanwhile, after cabin door lock unlocking operation is completed, an equipment lock in a fan cabin is identified through an equipment lock identification module, information extraction calling is carried out on the unlocking code of cabin door lock identification code auxiliary equipment according to equipment lock identification module identification information, and sequence judgment is further carried out on the unlocking code. The sequence through cabin lock unblock sign indicating number and equipment lock unblock sign indicating number is judged, make the unblock sign indicating number according to operation order activation in different levels, thereby guarantee the control sequence of equipment operation, effectively satisfy some to the circumstances that have certain sequence requirement of maintaining or operation, effectively increase the application scope of preventing the error control, simultaneously through the setting of scientific sequencing, and then effectively guarantee the rationality of equipment maintenance or operation, not only effectively prevent the error control operation of fan, and effectively improve the efficiency that equipment maintained or controlled. Meanwhile, through hierarchical activation, the subsequent sequence of unlocking codes is in a deep sleep encryption state, and the safety of each unlocking code is further ensured.
4. According to the safe anti-error control method for the IOT fan cabin door based on two-ticket management of electric power, matching judgment is carried out on identity information of an operator and working ticket information of an anti-error control information management module through an identity information matching unit, if the identity information is matched with the working ticket information of the anti-error control information management module, the output result is yes, information is fed back to a door lock control unit, if the result is not, the process is finished directly, and the result is output at the same time; matching the door lock unlocking code and the door control equipment lock control identity information code through the door lock control unit, if the output result is yes, carrying out unlocking operation, and simultaneously ending the door opening process of the cabin door lock, if the output result is no, directly ending, and simultaneously outputting the result;
5. according to the safe error-prevention control method for the IOT fan cabin door based on two-ticket power management, a door lock control unit is used for matching according to an equipment lock unlocking code and an identity information code of a control equipment lock, if the output result is yes, unlocking operation is carried out, meanwhile, the equipment lock opening process is ended, so that a worker carries out equipment operation, if the output result is no, the equipment operation is directly ended, and the result is output simultaneously; and matching the unlocking code of the equipment lock and the identity information code of the control equipment lockset through the door lock control unit, if the output result is yes, performing unlocking operation, and simultaneously ending the door opening process of the equipment lock to enable a worker to perform equipment operation, if the output result is no, directly ending, and simultaneously outputting the result. The equipment compartment door lock and the equipment lock are decoded and judged respectively, so that respective unlocking mutual noninterference is guaranteed, the accuracy of the decoding process is effectively guaranteed, and meanwhile, the anti-misoperation control effect of an operator is improved through double locking.
Drawings
FIG. 1 is a schematic flow chart of an error control prevention system according to the present invention;
FIG. 2 is a schematic diagram of a terminal control system according to the present invention;
FIG. 3 is a schematic diagram of a motion control system according to the present invention;
FIG. 4 is a diagram illustrating the state of an unlock code sequence according to the present invention;
FIG. 5 is a schematic diagram of a host system according to the present invention;
FIG. 6 is a schematic diagram of the overall system of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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.
Example one
Referring to fig. 1 and 2, the method for preventing the safe error control of the blower door of the internet of things based on two-ticket management of electric power includes the following steps:
s1, generating a work ticket by the terminal control system according to the basic information of the fan compartment, including compartment door lock type information, equipment basic information and equipment lock type information;
s2, transmitting the work ticket information to the anti-misoperation lock module of the host system in the fan cabin and the work ticket receiving module of the mobile terminal control system;
s3, the mobile control system calls and activates the unlocking code;
s4, the host system identifies the mobile control system;
s5, if the result is yes, performing information matching on the equipment information related to the site and the operator information lock code;
s6, if the result is negative, ending, and reminding the operation result;
s7, unlocking code matching is carried out on the locking code information;
s8, if yes, unlocking operation is carried out, information reminding is carried out, and the operation is ended;
and S9, if the result is negative, directly ending the process and reminding the result.
The terminal control system comprises a work ticket generating module and an information correlation module;
the terminal information correlation module also comprises a cabin door unlocking code generating unit, an equipment unlocking code generating unit, an unlocking code sequence unit and an unlocking code activation control unit;
the host system in the fan cabin comprises an information storage module;
the information storage module is used for storing basic information of the wind turbine cabin, and comprises control code information of internal equipment of the wind turbine cabin, an identity information code of a lock of the control equipment, category information of the lock of the control equipment, a control identity information code of a door control equipment lock and category information of the door control lock.
The method for generating the work ticket by the terminal control system comprises the following steps:
h1, the work ticket generating module receives the information stored in the information storage module and stores the equipment information, and generates a work ticket according to the equipment information;
h2, the information correlation module generates cabin door unlocking code information according to the cabin door unlocking code generating unit, generates equipment unlocking code information according to the equipment unlocking code generating unit, sequences and sorts the unlocking code information according to the control operation sequence, and carries out deep sleep encryption;
h3, the simultaneous information correlation module is correlated with the host system and the mobile control system information, and the work ticket unlocking code information is transmitted to the host system and the mobile terminal control system.
Example two
Referring to fig. 1 and fig. 3-4, the method for preventing false safety control of the blower door of the internet of things based on two-ticket management of electric power includes the following steps:
s1, generating a work ticket by the terminal control system according to the basic information of the fan compartment, including compartment door lock type information, equipment basic information and equipment lock type information;
s2, transmitting the work ticket information to the anti-misoperation lock module of the host system in the fan cabin and the work ticket receiving module of the mobile terminal control system;
s3, the mobile control system calls and activates the unlocking code;
s4, the host system identifies the mobile control system;
s5, if the result is yes, performing information matching on the equipment information related to the site and the operator information lock code;
s6, if the result is negative, ending, and reminding the operation result;
s7, unlocking code matching is carried out on the locking code information;
s8, if yes, unlocking operation is carried out, information reminding is carried out, and the operation is ended;
and S9, if the result is negative, directly ending the process and reminding the result.
The mobile control system comprises a work ticket receiving module, an intelligent key module, a cabin door lock identification module, an equipment lock identification module, an unlocking code calling module, an unlocking code activating module and an information feedback module;
the work ticket receiving module is used for transmitting work ticket information by the terminal control system;
the intelligent key module is used for extracting work order unlocking code information, including cabin door lock unlocking code information and equipment lock unlocking code information, and judging and identifying sequences, deep sleep encryption states and activation states of the cabin door lock unlocking code information and the equipment lock unlocking code information;
the cabin door lock identification module is used for extracting unlocking code information of the cabin door lock and identifying a control identity information code of a door control device of a host system;
the equipment lock identification module is used for extracting unlocking code information of the equipment lock and identifying an identity information code of a host system control equipment lock;
the unlocking code calling module is used for calling the unlocking code;
the unlocking code activation module is used for judging the sequence of calling the unlocking code and the activation state and activating the unlocking code at the same time;
and the information feedback module is used for finishing information feedback after operation, and comprises the updating of the cabin door lock unlocking code and the equipment lock unlocking code activation state information.
The method for calling unlocking code information by the mobile control system comprises the following steps:
d1, receiving the work ticket information transmitted by the terminal control system by the work ticket receiving module;
d2, the intelligent key module extracts unlocking code information in the work ticket;
d3, the cabin door lock recognition module extracts cabin door lock unlocking code information and simultaneously recognizes a host system door control equipment lock control identity information code;
d4, the equipment lock identification module extracts equipment lock unlocking code information and identifies the identity information code of the host system control equipment lock;
d5, carrying out information call on the hatch unlocking code according to the identification information of the hatch lock identification module;
d6, the unlocking code activation module carries out sequence judgment on the unlocking code, if the unlocking code is a sequence one, the unlocking code is directly activated, if the unlocking code is not the sequence one, the activation state judgment of the previous sequence is carried out, if the previous sequence is in the activation state, the activation condition is met, the unlocking code is activated, the activation code is in the recognizable calling state, if the previous sequence is in the non-activation state, the unlocking code is failed to be called, and meanwhile, calling information is output;
d7, after the door lock unlocking operation is completed, identifying the equipment lock in the fan cabin through an equipment lock identification module;
d8, extracting and calling the unlocking code of the auxiliary equipment of the cabin door lock identification code according to the identification information of the equipment lock identification module;
d9, the unlocking code activation module carries out sequence judgment on the unlocking code, if the unlocking code is a sequence one, the unlocking code is directly activated, if the unlocking code is not the sequence one, the activation state judgment of the previous sequence is carried out, if the previous sequence is in the activation state, the activation condition is met, the unlocking code is activated, the activation code is in the recognizable calling state, if the previous sequence is in the non-activation state, the unlocking code is failed to be called, and meanwhile, calling information is output;
d10, after the operation of the fan cabin is finished, the information feedback module is used for feeding back the operation finishing information, and meanwhile, the cabin door lock unlocking code activation state information and the equipment lock unlocking code identification information activation state information of the fan cabin are fed back to the intelligent key module.
EXAMPLE III
Referring to fig. 1 and 5, the method for preventing the safe error control of the blower door of the internet of things based on two-ticket management of electric power includes the following steps:
s1, generating a work ticket by the terminal control system according to the basic information of the fan compartment, including compartment door lock type information, equipment basic information and equipment lock type information;
s2, transmitting the work ticket information to the anti-misoperation lock module of the host system in the fan cabin and the work ticket receiving module of the mobile terminal control system;
s3, the mobile control system calls and activates the unlocking code;
s4, the host system identifies the mobile control system;
s5, if the result is yes, performing information matching on the equipment information related to the site and the operator information lock code;
s6, if the result is negative, ending, and reminding the operation result;
s7, unlocking code matching is carried out on the locking code information;
s8, if yes, unlocking operation is carried out, information reminding is carried out, and the operation is ended;
and S9, if the result is negative, directly ending the process and reminding the result.
The host system comprises an anti-misoperation lock module, an anti-misoperation information management module and a matching unlocking module;
the anti-misoperation lock module is used for managing and controlling the identity information of the wind turbine cabin door lock and the equipment lock;
the anti-misoperation information management module is used for receiving the operation information record of the work ticket and calling and extracting identity information of the cabin door lock and the equipment to be operated;
the matching unlocking module comprises an identity information matching unit, a door lock control unit and an anti-misoperation sequence identification unit;
the identity information matching unit is used for performing information matching on the equipment information and the operator information lock code related to the site;
the door lock control unit is used for unlocking code matching of the code locking information;
the cabin door lock and the equipment lock unlocking method comprises the following steps:
k1, the anti-misoperation lock module receives identity information of a wind turbine cabin door lock and an equipment lock and receives work ticket information at the same time;
k2, the anti-error information management module records the operation information of the work ticket, and calls and extracts the identity information of the cabin door lock and the lock of the equipment to be operated;
k3, the identity information matching unit carries out matching judgment on the identity information of the operator and the work ticket information of the anti-misoperation information management module, if the identity information is matched with the work ticket information of the anti-misoperation information management module, the output result is yes, and meanwhile, the information is fed back to the door lock control unit, if the identity information is not matched with the anti-misoperation information management module, the operation is finished directly, and meanwhile, the result is output;
k4, the door lock control unit matches the door lock unlocking code and the door control equipment lock control identity information code, if the output result is yes, the unlocking operation is carried out, the door opening process of the door lock is ended at the same time, if the output result is no, the door lock opening process is directly ended, and the result is output at the same time;
k5, the lock control unit matches according to the equipment lock unlocking code and the identity information code of the control equipment lock, if the output result is yes, the unlocking operation is carried out, meanwhile, the equipment lock door opening process is ended, the staff is enabled to carry out the equipment operation, and if the output result is no, the equipment operation is directly ended, and meanwhile, the result is output.
Example four
Referring to fig. 1-6, the method for preventing the safe error control of the blower door of the internet of things based on the two-ticket management of electric power includes the following steps:
s1, generating a work ticket by the terminal control system according to the basic information of the fan compartment, including compartment door lock type information, equipment basic information and equipment lock type information;
s2, transmitting the work ticket information to the anti-misoperation lock module of the host system in the fan cabin and the work ticket receiving module of the mobile terminal control system;
s3, the mobile control system calls and activates the unlocking code;
s4, the host system identifies the mobile control system;
s5, if the result is yes, performing information matching on the equipment information related to the site and the operator information lock code;
s6, if the result is negative, ending, and reminding the operation result;
s7, unlocking code matching is carried out on the locking code information;
s8, if yes, unlocking operation is carried out, information reminding is carried out, and the operation is ended;
and S9, if the result is negative, directly ending the process and reminding the result.
The terminal control system comprises a work ticket generating module and an information correlation module;
the terminal information correlation module also comprises a cabin door unlocking code generating unit, an equipment unlocking code generating unit, an unlocking code sequence unit and an unlocking code activation control unit;
the host system in the fan cabin comprises an information storage module;
the information storage module is used for storing basic information of the wind turbine cabin, and comprises control code information of internal equipment of the wind turbine cabin, an identity information code of a lock of the control equipment, category information of the lock of the control equipment, a control identity information code of a door control equipment lock and category information of the door control lock.
The method for generating the work ticket by the terminal control system comprises the following steps:
h1, the work ticket generating module receives the information stored in the information storage module and stores the equipment information, and generates a work ticket according to the equipment information;
h2, the information correlation module generates cabin door unlocking code information according to the cabin door unlocking code generating unit, generates equipment unlocking code information according to the equipment unlocking code generating unit, sequences and sorts the unlocking code information according to the control operation sequence, and carries out deep sleep encryption;
h3, the simultaneous information correlation module is correlated with the host system and the mobile control system information, and the work ticket unlocking code information is transmitted to the host system and the mobile terminal control system.
The mobile control system comprises a work ticket receiving module, an intelligent key module, a cabin door lock identification module, an equipment lock identification module, an unlocking code calling module, an unlocking code activating module and an information feedback module;
the work ticket receiving module is used for transmitting work ticket information by the terminal control system;
the intelligent key module is used for extracting work order unlocking code information, including cabin door lock unlocking code information and equipment lock unlocking code information, and judging and identifying sequences, deep sleep encryption states and activation states of the cabin door lock unlocking code information and the equipment lock unlocking code information;
the cabin door lock identification module is used for extracting unlocking code information of the cabin door lock and identifying a control identity information code of a door control device of a host system;
the equipment lock identification module is used for extracting unlocking code information of the equipment lock and identifying an identity information code of a host system control equipment lock;
the unlocking code calling module is used for calling the unlocking code;
the unlocking code activation module is used for judging the sequence of calling the unlocking code and the activation state and activating the unlocking code at the same time;
and the information feedback module is used for finishing information feedback after operation, and comprises the updating of the cabin door lock unlocking code and the equipment lock unlocking code activation state information.
The method for calling unlocking code information by the mobile control system comprises the following steps:
d1, receiving the work ticket information transmitted by the terminal control system by the work ticket receiving module;
d2, the intelligent key module extracts unlocking code information in the work ticket;
d3, the cabin door lock recognition module extracts cabin door lock unlocking code information and simultaneously recognizes a host system door control equipment lock control identity information code;
d4, the equipment lock identification module extracts equipment lock unlocking code information and identifies the identity information code of the host system control equipment lock;
d5, carrying out information call on the hatch unlocking code according to the identification information of the hatch lock identification module;
d6, the unlocking code activation module carries out sequence judgment on the unlocking code, if the unlocking code is a sequence one, the unlocking code is directly activated, if the unlocking code is not the sequence one, the activation state judgment of the previous sequence is carried out, if the previous sequence is in the activation state, the activation condition is met, the unlocking code is activated, the activation code is in the recognizable calling state, if the previous sequence is in the non-activation state, the unlocking code is failed to be called, and meanwhile, calling information is output;
d7, after the door lock unlocking operation is completed, identifying the equipment lock in the fan cabin through an equipment lock identification module;
d8, extracting and calling the unlocking code of the auxiliary equipment of the cabin door lock identification code according to the identification information of the equipment lock identification module;
d9, the unlocking code activation module carries out sequence judgment on the unlocking code, if the unlocking code is a sequence one, the unlocking code is directly activated, if the unlocking code is not the sequence one, the activation state judgment of the previous sequence is carried out, if the previous sequence is in the activation state, the activation condition is met, the unlocking code is activated, the activation code is in the recognizable calling state, if the previous sequence is in the non-activation state, the unlocking code is failed to be called, and meanwhile, calling information is output;
d10, after the operation of the fan cabin is finished, the information feedback module is used for feeding back the operation finishing information, and meanwhile, the cabin door lock unlocking code activation state information and the equipment lock unlocking code identification information activation state information of the fan cabin are fed back to the intelligent key module.
The host system also comprises an anti-misoperation lock module, an anti-misoperation information management module and a matching unlocking module;
the anti-misoperation lock module is used for managing and controlling the identity information of the wind turbine cabin door lock and the equipment lock;
the anti-misoperation information management module is used for receiving the operation information record of the work ticket and calling and extracting identity information of the cabin door lock and the equipment to be operated;
the matching unlocking module comprises an identity information matching unit, a door lock control unit and an anti-misoperation sequence identification unit;
the identity information matching unit is used for performing information matching on the equipment information and the operator information lock code related to the site;
the door lock control unit is used for unlocking code matching of the code locking information;
the cabin door lock and the equipment lock unlocking method comprises the following steps:
k1, the anti-misoperation lock module receives identity information of a wind turbine cabin door lock and an equipment lock and receives work ticket information at the same time;
k2, the anti-error information management module records the operation information of the work ticket, and calls and extracts the identity information of the cabin door lock and the lock of the equipment to be operated;
k3, the identity information matching unit carries out matching judgment on the identity information of the operator and the work ticket information of the anti-misoperation information management module, if the identity information is matched with the work ticket information of the anti-misoperation information management module, the output result is yes, and meanwhile, the information is fed back to the door lock control unit, if the identity information is not matched with the anti-misoperation information management module, the operation is finished directly, and meanwhile, the result is output;
k4, the door lock control unit matches the door lock unlocking code and the door control equipment lock control identity information code, if the output result is yes, the unlocking operation is carried out, the door opening process of the door lock is ended at the same time, if the output result is no, the door lock opening process is directly ended, and the result is output at the same time;
k5, the lock control unit matches according to the equipment lock unlocking code and the identity information code of the control equipment lock, if the output result is yes, the unlocking operation is carried out, meanwhile, the equipment lock door opening process is ended, the staff is enabled to carry out the equipment operation, and if the output result is no, the equipment operation is directly ended, and meanwhile, the result is output.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. Two-ticket management based safe error-prevention control method for blower door of Internet of things is characterized by comprising the following steps of: comprises the following steps:
s1, generating a work ticket by the terminal control system according to the basic information of the fan compartment, including compartment door lock type information, equipment basic information and equipment lock type information;
s2, transmitting the work ticket information to the anti-misoperation lock module of the host system in the fan cabin and the work ticket receiving module of the mobile terminal control system;
s3, the mobile control system calls and activates the unlocking code;
s4, the host system identifies the mobile control system;
s5, if the result is yes, performing information matching on the equipment information related to the site and the operator information lock code;
s6, if the result is negative, ending, and reminding the operation result;
s7, unlocking code matching is carried out on the locking code information;
s8, if yes, unlocking operation is carried out, information reminding is carried out, and the operation is ended;
and S9, if the result is negative, directly ending the process and reminding the result.
2. The Internet of things fan compartment door safety anti-error control method based on two tickets for electric power management, which is characterized in that: the terminal control system comprises a work ticket generating module and an information correlation module;
the terminal information correlation module also comprises a cabin door unlocking code generating unit, an equipment unlocking code generating unit, an unlocking code sequence unit and an unlocking code activation control unit;
the host system in the fan cabin comprises an information storage module;
the information storage module is used for storing basic information of the wind turbine cabin, and comprises control code information of internal equipment of the wind turbine cabin, an identity information code of a lock of the control equipment, category information of the lock of the control equipment, a control identity information code of a door control equipment lock and category information of the door control lock.
3. The Internet of things fan compartment door safety anti-error control method based on two tickets for electric power management, which is characterized in that: the method for generating the work ticket by the terminal control system comprises the following steps:
h1, the work ticket generating module receives the information stored in the information storage module and stores the equipment information, and generates a work ticket according to the equipment information;
h2, the information correlation module generates cabin door unlocking code information according to the cabin door unlocking code generating unit, generates equipment unlocking code information according to the equipment unlocking code generating unit, sequences and sorts the unlocking code information according to the control operation sequence, and carries out deep sleep encryption;
h3, the simultaneous information correlation module is correlated with the host system and the mobile control system information, and the work ticket unlocking code information is transmitted to the host system and the mobile terminal control system.
4. The Internet of things fan compartment door safety anti-error control method based on two tickets for electric power management, which is characterized in that: the mobile control system comprises a work ticket receiving module, an intelligent key module, a cabin door lock identification module, an equipment lock identification module, an unlocking code calling module, an unlocking code activating module and an information feedback module;
the work ticket receiving module is used for transmitting work ticket information by the terminal control system;
the intelligent key module is used for extracting work order unlocking code information, including cabin door lock unlocking code information and equipment lock unlocking code information, and judging and identifying sequences, deep sleep encryption states and activation states of the cabin door lock unlocking code information and the equipment lock unlocking code information;
the cabin door lock identification module is used for extracting unlocking code information of the cabin door lock and identifying a control identity information code of a door control device of a host system;
the equipment lock identification module is used for extracting unlocking code information of the equipment lock and identifying an identity information code of a host system control equipment lock;
the unlocking code calling module is used for calling the unlocking code;
the unlocking code activation module is used for judging the sequence of calling the unlocking code and the activation state and activating the unlocking code at the same time;
and the information feedback module is used for finishing information feedback after operation, and comprises the updating of the cabin door lock unlocking code and the equipment lock unlocking code activation state information.
5. The Internet of things fan compartment door safety anti-error control method based on two tickets for electric power management, which is characterized in that: the method for calling unlocking code information by the mobile control system comprises the following steps:
d1, receiving the work ticket information transmitted by the terminal control system by the work ticket receiving module;
d2, the intelligent key module extracts unlocking code information in the work ticket;
d3, the cabin door lock recognition module extracts cabin door lock unlocking code information and simultaneously recognizes a host system door control equipment lock control identity information code;
d4, the equipment lock identification module extracts equipment lock unlocking code information and identifies the identity information code of the host system control equipment lock;
d5, carrying out information call on the hatch unlocking code according to the identification information of the hatch lock identification module;
d6, the unlocking code activation module carries out sequence judgment on the unlocking code, if the unlocking code is a sequence one, the unlocking code is directly activated, if the unlocking code is not the sequence one, the activation state judgment of the previous sequence is carried out, if the previous sequence is in the activation state, the activation condition is met, the unlocking code is activated, the activation code is in the recognizable calling state, if the previous sequence is in the non-activation state, the unlocking code is failed to be called, and meanwhile, calling information is output;
d7, after the door lock unlocking operation is completed, identifying the equipment lock in the fan cabin through an equipment lock identification module;
d8, extracting and calling the unlocking code of the auxiliary equipment of the cabin door lock identification code according to the identification information of the equipment lock identification module;
d9, the unlocking code activation module carries out sequence judgment on the unlocking code, if the unlocking code is a sequence one, the unlocking code is directly activated, if the unlocking code is not the sequence one, the activation state judgment of the previous sequence is carried out, if the previous sequence is in the activation state, the activation condition is met, the unlocking code is activated, the activation code is in the recognizable calling state, if the previous sequence is in the non-activation state, the unlocking code is failed to be called, and meanwhile, calling information is output;
d10, after the operation of the fan cabin is finished, the information feedback module is used for feeding back the operation finishing information, and meanwhile, the cabin door lock unlocking code activation state information and the equipment lock unlocking code identification information activation state information of the fan cabin are fed back to the intelligent key module.
6. The Internet of things fan compartment door safety anti-error control method based on two tickets for electric power management, which is characterized in that: the host system also comprises an anti-misoperation lock module, an anti-misoperation information management module and a matching unlocking module;
the anti-misoperation lock module is used for managing and controlling the identity information of the wind turbine cabin door lock and the equipment lock;
the anti-misoperation information management module is used for receiving the operation information record of the work ticket and calling and extracting identity information of the cabin door lock and the equipment to be operated;
the matching unlocking module comprises an identity information matching unit, a door lock control unit and an anti-misoperation sequence identification unit;
the identity information matching unit is used for performing information matching on the equipment information and the operator information lock code related to the site;
and the door lock control unit is used for unlocking code matching of the locking code information.
7. The Internet of things fan compartment door safety anti-error control method based on two tickets for electric power management, which is characterized in that: the method for unlocking the cabin door lock and the equipment lock comprises the following steps:
k1, the anti-misoperation lock module receives identity information of a wind turbine cabin door lock and an equipment lock and receives work ticket information at the same time;
k2, the anti-error information management module records the operation information of the work ticket, and calls and extracts the identity information of the cabin door lock and the lock of the equipment to be operated;
k3, the identity information matching unit carries out matching judgment on the identity information of the operator and the work ticket information of the anti-misoperation information management module, if the identity information is matched with the work ticket information of the anti-misoperation information management module, the output result is yes, and meanwhile, the information is fed back to the door lock control unit, if the identity information is not matched with the anti-misoperation information management module, the operation is finished directly, and meanwhile, the result is output;
k4, the door lock control unit matches the door lock unlocking code and the door control equipment lock control identity information code, if the output result is yes, the unlocking operation is carried out, the door opening process of the door lock is ended at the same time, if the output result is no, the door lock opening process is directly ended, and the result is output at the same time;
k5, the lock control unit matches according to the equipment lock unlocking code and the identity information code of the control equipment lock, if the output result is yes, the unlocking operation is carried out, meanwhile, the equipment lock door opening process is ended, the staff is enabled to carry out the equipment operation, and if the output result is no, the equipment operation is directly ended, and meanwhile, the result is output.
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