CN111080253A - Random sun type power transmission line field operation method and system - Google Patents
Random sun type power transmission line field operation method and system Download PDFInfo
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Abstract
The application relates to a field operation method and a field operation system for a random solar power transmission line. According to the random field operation method of the solar power transmission line, the bidirectional token transmission between each operation terminal and the responsible terminal is set, so that each operation terminal is verified by the responsible terminal before and after operation, and the safety of field operation of the power transmission line is further improved.
Description
Technical Field
The application relates to the technical field of transmission line field operation, in particular to a random sun type transmission line field operation method and system.
Background
The field operation of the power transmission line includes four types, namely inspection operation, maintenance operation, overhaul operation and test operation. The field operation of the power transmission line relates to ten elements, wherein one element is a person, and the other nine elements are object elements used in the operation process, such as an operation vehicle, safety equipment, safety measures, operation equipment, an operation method, an operation position, an operation environment, an operation object, an operation ticket and the like. Each personal element and the matter element interact to form an operation link in the operation.
In the traditional scheme, the operation mode of the operation link is that a work person in charge designates a work class member to interact with corresponding matter elements, so that the operation link is completed. However, the conventional work method has a problem: in actual operation, operators or equipment which do not accord with operation regulations exist, and each operator or equipment can not meet the requirements only by means of commanding of a working responsible person on site, so that the safety of the field operation of the power transmission line is greatly critical, and meanwhile, the operation efficiency is low.
For example, there are operators who do not operate according to the job rules, operators who do not have the qualifications and capabilities, equipment used during the job do not meet the requirements of the job rules, and so on.
Disclosure of Invention
Therefore, it is necessary to provide a random sun-type transmission line field operation method and system for solving the problem that each operator or equipment is in line with the requirements only by means of the on-site command of a working responsible person, which is caused by the existence of the operators or equipment which are not in line with the operation regulations in the conventional transmission line field operation method.
The application provides a random solar power transmission line field operation method, which comprises the following steps:
the method comprises the following steps that a responsible terminal sends an operation token to each operation terminal, the operation terminals are multiple, and the operation tokens are used for recording an operation flow when the operation terminals execute operation of the responsible links of the operation terminals;
each operation terminal acquires the operation token, scans an electronic tag attached to the surface of an operation object corresponding to each operation terminal, and starts to execute the operation of a link responsible for each operation terminal;
after each operation terminal finishes the operation of the responsible link, returning an operation token corresponding to the operation terminal to the responsible terminal;
the responsible terminal acquires an operation token sent by each operation terminal and judges whether the total number of the operation tokens received by the responsible terminal is equal to the total number of the operation tokens sent by the responsible terminal;
and if the total number of the operation tokens received by the responsible terminal is equal to the total number of the operation tokens sent by the responsible terminal, determining that the whole operation process is finished, stopping receiving the operation tokens by the responsible terminal, and ending the whole operation process.
The application also provides a random solar power transmission line field operation system, which adopts the random solar power transmission line field operation method mentioned in the foregoing, and the random solar power transmission line field operation system comprises:
the charge terminal is used for sequentially sending the job tokens to the plurality of job terminals and receiving the job tokens returned by each job terminal after each job terminal completes the job of the link responsible for the job terminal; the operation token is used for recording an operation flow when the operation terminal executes the operation of the link which is responsible for the operation terminal;
each operation terminal is connected with the responsible terminal and used for receiving an operation token sent by the responsible terminal, scanning an electronic tag attached to the surface of an operation object corresponding to each operation terminal and starting to execute the operation of a link responsible for each operation terminal; after each operation terminal finishes the operation of the responsible link, returning an operation token corresponding to the operation terminal to the responsible terminal;
each work object is connected with one work terminal and is used for being matched with the work terminal to complete the work of the link which is responsible for the work terminal.
The application relates to a random sun type transmission line field operation method and system, which ensure that each operation terminal is verified by a responsible terminal before and after operation by setting bidirectional token transmission between each operation terminal and the responsible terminal, and further improve the safety of the transmission line field operation.
Drawings
Fig. 1 is a schematic flow chart of a random sun power transmission line field operation method according to an embodiment of the present disclosure;
fig. 2 is a schematic structural diagram of a random sun power transmission line field operation system according to an embodiment of the present disclosure;
fig. 3 is a schematic structural diagram of an operation object in the field operation system of the random sun power transmission line according to an embodiment of the present application.
10 random sun type transmission line field operation system
100 responsible terminal
200 operation terminal
300 work object
400 identity authentication module
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.
The application provides a random solar power transmission line field operation method.
It should be noted that the random sun power transmission line field operation method provided by the present application is not limited to the implementation subject. Optionally, an execution main body of the random solar power transmission line field operation method provided by the present application may be a random solar power transmission line field operation system 10. Alternatively, the executing body may be a processor or other control device with a control function provided in the random sun type random solar transmission line field operation system 10.
As shown in fig. 1, in an embodiment of the present application, the method for random solar power transmission line field operation includes the following steps S100 to S900:
s100, the responsible terminal 100 sends a job token to each job terminal 200. The work terminal 200 is plural. The job token is used for recording a job flow when the job terminal 200 executes a job of a link for which the job terminal 200 is responsible.
Specifically, the responsible terminal 100 may be one of a mobile phone, a notebook computer and a tablet computer, or any other kind of intelligent terminal. Similarly, the operation terminal 200 may be one of a mobile phone, a notebook computer and a tablet computer. The responsible terminal 100 is one. The work terminal 200 may be plural. The job token is also plural. The number of job terminals 200 is equal to the number of job tokens.
In this step, the in-charge terminal 100 transmits one job token to each job terminal 200.
The job token is used for recording a job flow when the job terminal 200 executes a job of a link in charge of the job terminal 200. The job token is also used to unlock the job authority of the job terminal 200. In other words, one job terminal 200 can start to execute the job of its responsible link only after acquiring the job token.
And S300, each job terminal 200 acquires the job token. Further, each of the work terminals 200 scans the electronic tag attached to the surface of the work object 300 corresponding to each of the work terminals 200, and starts to execute the job of the link in which each of the work terminals 200 is responsible.
Specifically, after each job terminal 200 acquires the job token sent by the responsible terminal 100, each job terminal 200 is equivalent to being unlocked with the job authority. Further, each of the job terminals 200 may scan an electronic tag attached to the surface of the job object 300 corresponding to the job terminal 200.
As described above, the number of the work objects 300 is also plural, and the work terminals 200 correspond to the work objects 300 one to one. The work object 300 may be a vehicle, a work tool, a safety tool, or the like used during the field work of the power transmission line. An electronic tag is attached to the surface of each work object 300. The electronic tag can be a two-dimensional code.
Each of the job terminals 200 can establish a job relationship linked with the job object 300 by scanning the electronic tag attached to the surface of the job object 300 corresponding to the job terminal 200, so that each job terminal 200 can cooperate with the job object 300 corresponding thereto to complete the job of the link in which each job terminal 200 is responsible.
S500, after each job terminal 200 completes the job of the responsible link, returning the job token corresponding to the job terminal 200 to the responsible terminal 100.
Specifically, a plurality of job terminals 200 can simultaneously perform jobs. The operation speed of each operation terminal 200 is different, and after each operation terminal 200 completes the operation of the link in charge, the operation token corresponding to the operation terminal 200 is sent to the charge terminal 100. The job token records the job flow of the job terminal 200.
S700, the responsible terminal 100 acquires the job token transmitted by each job terminal 200. Further, the responsible terminal 100 determines whether the total number of job tokens received by the responsible terminal 100 is equal to the total number of job tokens sent by the responsible terminal 100 in the step S100.
Specifically, the in-charge terminal 100 acquires a job token transmitted by each job terminal 200. After acquiring each job token, the responsible terminal 100 executes the step S700 once, and determines whether the total number of the job tokens received by the responsible terminal 100 is equal to the total number of the job tokens sent by the responsible terminal 100 in the step S100.
S900, if the total number of job tokens received by the responsible terminal 100 is equal to the total number of job tokens sent by the responsible terminal 100 in the step S100, it is determined that the whole job flow is completed. The in-charge terminal 100 stops receiving the job token and ends the entire job flow.
Specifically, the foregoing has mentioned that, in step S100, the responsible terminal 100 transmits one job token to each job terminal 200. In step S500, after each job terminal 200 completes the job of the responsible link, the job token corresponding to the job terminal 200 is returned to the responsible terminal 100. It is understood that, when the total number of job tokens received by the responsible terminal 100 is equal to the total number of job tokens sent by the responsible terminal 100 in the step S100, it is determined that the entire job flow is completed. The in-charge terminal 100 stops receiving the job token and ends the entire job flow.
In this embodiment, by setting the bidirectional token passing between each operation terminal 200 and the responsible terminal 100, it is ensured that each operation terminal 200 is verified by the responsible terminal 100 before and after the operation, and the safety of the field operation of the power transmission line is further improved.
In an embodiment of the present application, the random solar power transmission line field operation method further includes the following steps:
s800, if the total number of job tokens received by the responsible terminal 100 is not equal to the total number of job tokens sent by the responsible terminal 100 in the step S100, it is determined that the whole job flow is not completed and there are still unfinished job terminals 200. The in-charge terminal 100 maintains a state of waiting for reception of the job token.
For example, there are 10 job terminals 200, and the total number of job tokens sent by the responsible terminal 100 in step S100 is 10. If the total number of the job tokens received by the responsible terminal 100 is 9, it is determined that the entire job flow is not completed, and there are 1 job terminals 200 that do not complete the job. The responsible terminal 100 maintains a state of waiting for receiving the job token, and waits for the last 1 unfinished job terminal 200 to finish the job of the responsible link.
In this embodiment, when the total number of received job tokens by the responsible terminal 100 is not equal to the total number of job tokens sent by the responsible terminal 100 in the step S100, the responsible terminal 100 maintains a state of waiting for receiving the job tokens, so that the responsible terminal 100 can monitor the job process of each job terminal 200 by monitoring the number of received job tokens.
In an embodiment of the application, before the step S700, the method for field operation of the random solar power transmission line further includes the following steps S610 to S620:
s610, the responsible terminal 100 acquires the job token sent by each job terminal 200. Further, when acquiring the job token sent by each job terminal 200, the responsible terminal 100 checks the job flow of the job terminal 200 according to the job token, and determines whether the job flow of the job terminal 200 is completed.
Specifically, the in-charge terminal 100 can check the job flow of each job terminal 200 in turn by the job token transmitted by each job terminal 200. If the operation flow of each operation terminal 200 is completed, no missing or error is generated. It is determined that the entire workflow is complete. If there is a missing or error in the workflow of any of the job terminals 200, it is determined that the entire workflow is not completed.
S620, if the job flow of the job terminal 200 is completed, the responsible terminal 100 sends a close command to the job terminal 200 corresponding to the job token, so that the job terminal 200 corresponding to the job token exits the job.
Specifically, if the responsible terminal 100 receives a job token sent by one job terminal 200 and determines that the job flow of the job terminal 200 is completed according to the job token, the responsible terminal 100 sends a close instruction to the job terminal 200, so that the job terminal 200 exits the job.
If the job flow of the job terminal 200 is determined to be incomplete, the responsible terminal 100 may send the job token to the job terminal 200 that does not complete the job flow, so that the job terminal 200 that does not complete the job flow re-executes the job of the responsible link of the job terminal 200.
In this embodiment, the responsible terminal 100 checks the job flow of one job terminal 200 according to the job token sent by the job terminal 200, and sends a close instruction to the job terminal 200 corresponding to the job token after determining that the job flow of the job terminal 200 is completed, so that each job flow is sequentially closed according to the completion order, and errors and waste of job resources (e.g., electric power) in the job flow are avoided.
In an embodiment of the present application, the step S300 further includes the following steps S310 to S370:
s310, each job terminal 200 acquires the job token.
S330, each job terminal 200 reads the job relation in the job token.
S350, each job terminal 200 determines the job object 300 corresponding to each job terminal 200 according to the job relation.
S370, each of the work terminals 200 scans the electronic tag attached to the surface of the work object 300 corresponding to each of the work terminals 200, and starts to execute the job of the link in which each of the work terminals 200 is responsible.
Specifically, steps S310 to S370 are steps in which the job terminal 200 specifically executes the job flow. Each of the job terminals 200 executes the steps S310 to S370.
In the embodiment, one operation terminal 200 scans the electronic tag attached to the surface of the operation object 300 corresponding to the operation terminal 200, and executes the operation of the link in which the operation terminal 200 is responsible, so that the rigid binding of the operation terminal 200 and the operation object 300 is realized, the generation of the illegal operation condition of the field operation of the power transmission line is reduced, and the safety degree of the field operation of the power transmission line is improved.
In an embodiment of the application, before the step S100, the method for field operation of the random solar power transmission line further includes:
and S010, the responsible terminal 100 acquires the work ticket. The work ticket includes a job relationship. The job relationship is used to represent the relationship between each job terminal 200 and the job object 300 corresponding to the job terminal 200. Each job terminal 200 has a job object 300 uniquely corresponding to the job terminal 200.
Specifically, the work ticket is a written command that permits execution of work on each job object 300, and is also a written basis for execution of a security technical measure. The work ticket is filled in by the person issuing the job task and is generated after filling. After the work ticket is generated, the person who issues the job task inputs the work ticket to the charge terminal 100. The work ticket contains a job relationship.
S030, the responsible terminal 100 reads the job relation in the work ticket. Further, the responsible terminal 100 generates a plurality of electronic tags according to the job relation. Each electronic tag corresponds to one job object 300 and one job terminal 200.
Specifically, the electronic tag may be a two-dimensional code including a job relation. Each job object 300 corresponds to a unique electronic tag. The electronic tag includes a correspondence relationship between the work terminal 200 and the work object 300.
S050, the responsible terminal 100 sets each electronic tag on the surface of the work object 300 corresponding to the electronic tag.
Specifically, the electronic tag may be attached to the surface of the work object 300 by means of pasting or spraying.
In the embodiment, the responsible terminal 100 reads the job relation in the job ticket, generates the electronic tag containing the job relation and arranges the electronic tag on the surface of the job object 300, so that the job terminal 200 and the job object 300 are rigidly bound, the illegal operation condition of the field operation of the power transmission line is reduced, and the safety degree of the field operation of the power transmission line is improved.
In an embodiment of the application, after the step S010, the random solar power transmission line field operation method further includes the steps of:
and S020, reading the operation relation in the work ticket by the responsible terminal 100. Further, the responsible terminal 100 generates a plurality of job tokens according to the job relationship.
Specifically, the steps S030 to S050 are a generation process of an electronic tag. The step S020 is a generation process of the job token.
Step S020 may be executed after step S030 to step S050, may be executed before step S030 to step S050, or may be executed in synchronization with step S030 to step S050.
In the embodiment, the operation token is generated according to the operation relation and the operation sequence in the work ticket, so that the operation token can be sequentially transmitted in the plurality of operation terminals 200 to unlock the operation authority of each operation terminal 200, an ordered transmission line field operation link is formed, and the smoothness and the operation efficiency of the transmission line field operation are improved.
In an embodiment of the application, after the step S030, the random sun power transmission line field operation method further includes the following steps S041 to S043:
s041, the preset identity information and identity authentication module 400 corresponding to each job terminal 200 is generated.
Specifically, the preset identity information may be identity information of an operator who operates the work terminal 200. The identity authentication module 400 corresponds to the preset identity information one to one.
S042, searching for the job object 300 corresponding to each preset identity information according to the job relationship.
Specifically, the job relationship in the job ticket has determined the correspondence of the job terminal 200 and the job object 300. Step S041 also determines the correspondence between the preset identity information and the job terminal 200. It is understood that, according to the job relationship, the corresponding relationship between the job object 300 and the preset identity information may be determined. In other words, the correspondence relationship of the job terminal 200, the job object 300, and the preset identification information can be determined.
S043, each preset identity information and identity authentication module 400 is embedded in the job object 300 corresponding to the preset identity information.
In particular, the identity authentication module 400 may include a memory. The preset identity information may be stored in the memory. The identity authentication module 400 storing the preset identity information may be embedded in the job object 300 corresponding to the preset identity information. After this step is performed, the job object 300 includes both the preset identity information and the electronic tag.
In this embodiment, by generating the preset identity information and the identity authentication module 400 corresponding to each operation terminal 200, the preset identity information can be bound to the operation object 300 and the operation terminal 200, so that the identity information of the operation terminal 200 can be conveniently checked by the subsequent operation terminal 200 before scanning the two-dimensional code on the surface of the operation object 300, and the security is improved.
In an embodiment of the application, before the step S370, the method for field operation of the random solar power transmission line further includes the following steps S361 to S364:
s361, each work terminal 200 issues an authentication request to the authentication module 400 built in the work object 300 corresponding to each work terminal 200.
Specifically, after the step S350, that is, after the job object 300 corresponding to the job terminal 200 is determined, the step S370 is not performed at the first time, but the steps S361 to S364 are performed. S361 to S364 are processes of verifying the identity information of the work terminal 200.
S362, each authentication module 400 starts an authentication function. Each of the job terminals 200 inputs authentication information to each of the authentication modules 400.
Specifically, after the identity authentication module 400 receives the identity authentication request, the identity authentication module 400 starts an identity verification function. Alternatively, the job object 300 may pop up an authentication interface, or may pop up the authentication interface on the job terminal 200. Through the authentication interface, the operation terminal 200 may input authentication information. For example, a password is entered.
S363, each identity authentication module 400 determines whether the identity verification information matches the preset identity information.
Specifically, the authentication information is the identity information input by the operation terminal 200. The preset identity information is pre-generated identity information. The identity authentication module 400 determines whether the identity verification information matches the preset identity information.
S364, if the identity verification information matches the preset identity information, the identity authentication module 400 sends an instruction allowing the operation terminal 200 to scan the electronic tag to the operation terminal 200.
Specifically, if the identity verification information matches the preset identity information, it is determined that the operation terminal 200 is a legal operation terminal 200, and the identity authentication module 400 sends an instruction allowing the operation terminal 200 to scan the electronic tag to the operation terminal 200.
If the identity verification information does not match the preset identity information, it is determined that the operation terminal 200 is an illegal operation terminal 200, and the identity authentication module 400 sends an instruction for rejecting the operation terminal 200 to scan the electronic tag to the operation terminal 200, and closes the connection relationship between the operation object 300 and the operation terminal 200.
In this embodiment, the identity authentication module 400 of the operation object 300 performs identity authentication on the operation terminal 200, so that validity verification of the operation terminal 200 is realized, and after the verification is passed, the operation terminal 200 is allowed to scan an instruction of an electronic tag, so that the safety of the field operation process of the whole power transmission line is further improved.
In an embodiment of the present application, the authentication information may be one of a password, fingerprint information, and face image information, which are presented in a digital form.
Specifically, the authentication information may not be limited to the above embodiments. When the authentication information is a password presented in a digital form, the operation terminal 200 inputs a digital password to the authentication module 400 to complete the authentication of the operation terminal 200. When the authentication information is fingerprint information, the operation terminal 200 inputs a fingerprint of an operator to the identity authentication module 400, and completes the identity authentication of the operation terminal 200 through fingerprint identification. When the authentication information is face image information, the operation terminal 200 completes the authentication of the operation terminal 200 through face recognition.
In this embodiment, by setting various forms of authentication information, the authentication process of the operation terminal 200 is simplified and made efficient.
The application also provides a random solar power transmission line field operation system 10. The random solar power transmission line field operation system 10 adopts the random solar power transmission line field operation method mentioned in the foregoing.
In an embodiment of the present application, the random sun power line field operation system 10 includes a charge terminal 100, a plurality of operation terminals 200, and a plurality of operation objects 300. Each of the job terminals 200 is connected to the in-charge terminal 100. Each job object 300 is connected to one job terminal 200.
The responsible terminal 100 is configured to sequentially send job tokens to the plurality of job terminals 200, and receive a job token returned by each job terminal 200 after each job terminal 200 completes a job of a link for which it is responsible. The job token is used for recording a job flow when the job terminal 200 executes a job of a link in which the job terminal 200 is responsible.
Each job terminal 200 is configured to receive the job token sent by the responsible terminal 100, scan the electronic tag attached to the surface of the job object 300 corresponding to each job terminal 200, and start to execute the job of the link responsible for each job terminal 200. After each job terminal 200 completes the job of the link in charge, the job token corresponding to the job terminal 200 is returned to the charge terminal 100.
Each job object 300 is used for cooperating with the corresponding job terminal 200 to complete the job of the link in charge of the job terminal 200.
Specifically, the number of the job terminals 200 may be equal to the number of the job objects 300. One job terminal 200 corresponds to one job object 300. The responsible terminal 100 may be one of a mobile phone, a notebook computer and a tablet computer, or any other kind of intelligent terminal. Similarly, the operation terminal 200 may be one of a mobile phone, a notebook computer and a tablet computer. The work object 300 may be one of a work vehicle, a safety tool, a safety measure, a work tool, a work method, a work location, a work environment, the work object 300, and a work ticket.
In this embodiment, the responsible terminal 100 is provided, so that the entire operation flow is monitored. By setting the rigid binding of the plurality of operation terminals 200 and the plurality of operation objects 300, the generation of the illegal operation condition of the field operation of the power transmission line is reduced, and the safety degree of the field operation of the power transmission line is improved. In addition, by setting the bidirectional token passing between each operation terminal 200 and the responsible terminal 100, it is ensured that each operation terminal 200 is verified by the responsible terminal 100 before and after the operation, and the safety of the field operation of the power transmission line is further improved.
In an embodiment of the present application, the random sun power transmission line field operation system 10 further includes a plurality of identity authentication modules 400. Each authentication module 400 is embedded in one of the job objects 300. The identity authentication module 400 is configured to perform identity verification on the work terminal 200 before the work terminal 200 scans an electronic tag attached to the surface of the work object 300 corresponding to the work terminal 200.
Specifically, the identity authentication module 400 may perform identity authentication on the operation terminal 200 through various implementation manners such as digital password authentication, fingerprint authentication, face authentication, and the like.
In this embodiment, the identity authentication module 400 is arranged to authenticate the identity of the operation terminal 200, so that the validity of the operation terminal 200 is verified, and after the verification is passed, the operation terminal 200 is allowed to scan the instruction of the electronic tag, so that the safety of the field operation process of the whole power transmission line is further improved.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present application shall be subject to the appended claims.
Claims (11)
1. A random sun type power transmission line field operation method is characterized by comprising the following steps:
s100, a responsible terminal (100) sends a job token to each job terminal (200), the number of the job terminals (200) is multiple, and the job tokens are used for recording job flows when the job terminals (200) execute jobs of links responsible for the job terminals (200);
s300, each work terminal (200) acquires the work token, scans an electronic tag attached to the surface of a work object (300) corresponding to each work terminal (200), and starts to execute the work of a link in charge of each work terminal (200);
s500, after each operation terminal (200) finishes the operation of the responsible link, returning an operation token corresponding to the operation terminal (200) to the responsible terminal (100);
s700, the responsible terminal (100) acquires the job token sent by each job terminal (200), and judges whether the total number of the job tokens received by the responsible terminal (100) is equal to the total number of the job tokens sent by the responsible terminal (100) in the step S100;
and S900, if the total number of the job tokens received by the responsible terminal (100) is equal to the total number of the job tokens sent by the responsible terminal (100) in the step S100, determining that the whole job flow is finished, and stopping receiving the job tokens by the responsible terminal (100) and ending the whole job flow.
2. The random solar power transmission line field operation method according to claim 1, further comprising:
s800, if the total number of the job tokens received by the responsible terminal (100) is not equal to the total number of the job tokens sent by the responsible terminal (100) in the step S100, determining that the whole job process is not finished, and the job terminal (200) with unfinished jobs still exists, wherein the responsible terminal (100) maintains a state of waiting for receiving the job tokens.
3. The random solar power transmission line field operation method according to claim 2, further comprising, before the step S700:
s610, the responsible terminal (100) acquires the job token sent by each job terminal (200), and when the job token sent by each job terminal (200) is acquired, the job process of the job terminal (200) is checked according to the job token, and whether the job process of the job terminal (200) is completed is judged;
and S620, if the operation flow of the operation terminal (200) is finished, the responsible terminal (100) sends a closing instruction to the operation terminal (200) corresponding to the operation token so as to enable the operation terminal (200) corresponding to the operation token to quit the operation.
4. The random solar power transmission line field operation method according to claim 3, wherein the step S300 comprises:
s310, each job terminal (200) acquires the job token;
s330, each job terminal (200) reads the job relation in the job token;
s350, each work terminal (200) determines a work object (300) corresponding to each work terminal (200) according to the work relation;
and S370, each work terminal (200) scans the electronic label attached to the surface of the work object (300) corresponding to each work terminal (200) and starts to execute the work of the link in charge of each work terminal (200).
5. The random solar power transmission line field operation method according to claim 4, further comprising, before the step S100:
s010, the responsible terminal (100) acquires a work ticket, the work ticket comprises a job relation, the job relation is used for representing the relation between each job terminal (200) and a job object (300) corresponding to the job terminal (200), and each job terminal (200) has the job object (300) uniquely corresponding to the job terminal (200);
s030, the responsible terminal (100) reads the operation relation in the work ticket, and generates a plurality of electronic tags according to the operation relation, and each electronic tag corresponds to one operation object (300) and one operation terminal (200);
and S050, wherein each electronic tag is arranged on the surface of the operation object (300) corresponding to the electronic tag by the responsible terminal (100).
6. The random solar power transmission line field operation method according to claim 5, further comprising, after the step S010:
and S020, generating a plurality of job tokens by the responsible terminal (100) according to the job relation read from the work ticket and the job relation.
7. The random solar power transmission line field operation method according to claim 6, further comprising, after the step S030:
s041, generating preset identity information and identity authentication modules (400) corresponding to each operation terminal (200);
s042, searching for a working object (300) corresponding to each preset identity information according to the working relation;
s043, each preset identity information and identity authentication module (400) is embedded into the operation object (300) corresponding to the preset identity information.
8. The random solar power transmission line field operation method of claim 7, wherein before the step S370, the method further comprises:
s361, each work terminal (200) sends an identity authentication request to an identity authentication module (500) which is arranged in a work object (300) corresponding to each work terminal (200);
s362, each identity authentication module (500) starts an identity verification function, and each operation terminal (200) inputs identity verification information to each identity authentication module (500);
s363, each identity authentication module (500) determines whether the identity verification information matches the preset identity information;
s364, if the identity verification information matches the preset identity information, the identity authentication module (500) sends an instruction allowing the operation terminal (200) to scan the electronic tag to the operation terminal (200).
9. The random sun power transmission line field operation method according to claim 8, wherein the authentication information may be one of a password, fingerprint information, and face image information presented in a digital form.
10. A stochastic solar transmission line field operation system, wherein the stochastic solar transmission line field operation method according to any one of claims 1 to 9 is adopted, and the stochastic solar transmission line field operation system (10) comprises:
the charge terminal (100) is used for sequentially sending job tokens to the plurality of job terminals (200) and receiving the job tokens returned by each job terminal (200) after each job terminal (200) completes the job of the responsible link; the operation token is used for recording an operation flow when the operation terminal (200) executes the operation of the link which is in charge of the operation terminal (200);
the system comprises a plurality of work terminals (200), each work terminal (200) is connected with the responsible terminal (100), each work terminal (200) is used for receiving a work token sent by the responsible terminal (100), scanning an electronic tag attached to the surface of a work object (300) corresponding to each work terminal (200), and starting to execute the work of a link responsible for each work terminal (200); after each operation terminal (200) finishes the operation of the responsible link, returning an operation token corresponding to the operation terminal (200) to the responsible terminal (100); and
the system comprises a plurality of work objects (300), wherein each work object (300) is connected with one work terminal (200) and is used for being matched with the work terminal (200) to complete the work of the link which is taken charge by the work terminal (200).
11. A stochastic solar power transmission line site operation system according to claim 10, wherein the stochastic solar power transmission line site operation system (10) further comprises:
the identity authentication system comprises a plurality of identity authentication modules (400), wherein each identity authentication module (400) is embedded in one operation object (300) and used for carrying out identity authentication on the operation terminal (200) before the operation terminal (200) scans an electronic tag attached to the surface of the operation object (300) corresponding to the operation terminal (200).
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Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102946603A (en) * | 2012-10-31 | 2013-02-27 | 重庆市电力公司 | Uniform identity authentication method based on social characteristics in power cloud system |
WO2015039502A1 (en) * | 2013-09-23 | 2015-03-26 | 华为技术有限公司 | Communication authentication method and apparatus, and terminal device |
CN104850964A (en) * | 2015-06-03 | 2015-08-19 | 国网辽宁省电力有限公司抚顺供电公司 | Power production site safety verification device and power production site safety verification method |
WO2015193578A1 (en) * | 2014-06-20 | 2015-12-23 | Peugeot Citroen Automobiles Sa | Method and system for authentication by means of tokens |
CN105791259A (en) * | 2015-10-26 | 2016-07-20 | 北京中金国盛认证有限公司 | Method for protecting personal information |
WO2016188290A1 (en) * | 2015-05-27 | 2016-12-01 | 阿里巴巴集团控股有限公司 | Safety authentication method, device and system for api calling |
US20170012978A1 (en) * | 2015-05-14 | 2017-01-12 | River Security Inc. | Secure communication method and apparatus |
-
2019
- 2019-12-11 CN CN201911268939.5A patent/CN111080253B/en active Active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102946603A (en) * | 2012-10-31 | 2013-02-27 | 重庆市电力公司 | Uniform identity authentication method based on social characteristics in power cloud system |
WO2015039502A1 (en) * | 2013-09-23 | 2015-03-26 | 华为技术有限公司 | Communication authentication method and apparatus, and terminal device |
WO2015193578A1 (en) * | 2014-06-20 | 2015-12-23 | Peugeot Citroen Automobiles Sa | Method and system for authentication by means of tokens |
US20170012978A1 (en) * | 2015-05-14 | 2017-01-12 | River Security Inc. | Secure communication method and apparatus |
WO2016188290A1 (en) * | 2015-05-27 | 2016-12-01 | 阿里巴巴集团控股有限公司 | Safety authentication method, device and system for api calling |
CN104850964A (en) * | 2015-06-03 | 2015-08-19 | 国网辽宁省电力有限公司抚顺供电公司 | Power production site safety verification device and power production site safety verification method |
CN105791259A (en) * | 2015-10-26 | 2016-07-20 | 北京中金国盛认证有限公司 | Method for protecting personal information |
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