CN110674903A - Intelligent matching method for power distribution cabinet and task list - Google Patents

Abstract

The invention relates to an intelligent matching method of a power distribution cabinet and a task list, which comprises the following steps: step S1: two sensors and RFID tags are installed on a cabinet door of a power distribution cabinet and used for monitoring the locking state of the cabinet door and the opening and closing state of the cabinet door; step S2: after the task list is issued, the background system sends specific time operation information to the corresponding power distribution cabinet, and corresponding personnel go to the specified intelligent power distribution cabinet and upload position information in real time; step S3: monitoring the state of the cabinet door of the power distribution cabinet, and uploading the opening and closing and unlocking actions of the cabinet door to the background system through the RFID label; and when the cabinet door is opened and closed, the working personnel execute unlocking and locking actions, including four states of door closing and locking, door closing and unlocking, unlocking and door opening, and door opening by locking. The corresponding power distribution cabinet is matched with the task list, the power distribution cabinet which is appointed according to the task list is operated according to the process of power grid maintenance, and economic loss and casualties caused by the conditions of appointed power distribution cabinet errors and the like are effectively avoided.

Description

Intelligent matching method for power distribution cabinet and task list

Technical Field

The invention relates to the field of RFID, in particular to an intelligent matching method for a power distribution cabinet and a task list.

Background

In the field of distribution network safety production process management and control, the prior art is mainly based on manual management assisted by a local camera, numerous tools and appliances are manually assigned according to a task list, a person specified by the task list drives a vehicle to a task place, corresponding equipment is manually compared in numerous power distribution cabinets of the task place, and production is carried out. Local cameras are arranged at the departure place and the task place for monitoring, and videos can be called locally and watched manually.

Safety production management and control are an important part in the production process of distribution networks. At present, in the production process of a distribution network, serious production safety accidents are caused because the operation is not strictly carried out according to the safety standard flow in the production operation process due to the influences of factors such as thin safety consciousness, fatigue on duty, paralysis, blindness, self-belief, lucky psychology and the like. The causes of the safety accidents in the production of distribution networks are mainly embodied in the following aspects:

fatigue operation: the operators are in a tired physiological state and cannot meet the requirements of safe production;

the things are not: the operated object equipment does not accord with the production items required by the work order or does not meet the requirements of safe operation regulations;

time-out of alignment: the place where the operation items are located is not consistent with the operation time required by the work order;

the current affairs are not right: the operation items do not coincide with the time required by the work order.

Disclosure of Invention

In view of the above, the present invention aims to provide an intelligent matching method for a power distribution cabinet and a task list, wherein the corresponding power distribution cabinet and the task list are matched, and the power distribution cabinet assigned according to the task list is operated according to the power grid maintenance process, so that economic losses and casualties caused by situations such as power distribution cabinet assignment errors are effectively avoided.

The invention is realized by adopting the following scheme: a power distribution cabinet and task list intelligent matching method provides a background system, and comprises the following steps:

step S1: two sensors and RFID tags are installed on a cabinet door of a power distribution cabinet and used for monitoring the locking state of the cabinet door and the opening and closing state of the cabinet door;

step S2: after the task list is issued, the background system sends specific time operation information to the corresponding power distribution cabinet, and corresponding personnel go to the specified intelligent power distribution cabinet and upload position information in real time;

step S3: monitoring the state of a cabinet door of the power distribution cabinet, and uploading the opening and closing and unlocking actions of the cabinet door to the background system through the RFID tag so as to realize real-time monitoring of the power distribution cabinet; the method comprises the following steps that when a cabinet door is opened and closed, a worker carries out unlocking and locking actions, wherein the unlocking and locking actions comprise four states of door closing and locking, door closing and unlocking, unlocking and door opening, and door opening by locking and unlocking;

step S4: and aiming at the different states of the cabinet door of the power distribution cabinet monitored in the step S3, the background system issues different tasks to the power distribution cabinet, and after the staff executes the tasks, the staff feeds back information to the background system and closes the door and falls the lock.

Further, the step S3 specifically includes the following steps:

step S31: turning on two sensors;

step S32: acquiring geomagnetic field intensity in XYZ3 directions, a cabinet door opening and closing state, unlocking and locking;

step S33: judging the opening/closing action through an algorithm; if the door is opened, the RFID transmits a door opening action signal and an unlocking and locking action executed by a worker to the background system, and then the step S34 is executed; otherwise, executing step S34;

step S34: the background system enters the dormancy state and starts the RTC timing;

step S35: judging whether a timing interval is reached; if so, the process returns to step S31, otherwise, the process returns to step S34.

Further, the determining of the opening/closing motion through the algorithm in step S33 specifically includes the following steps:

step SA: x, Y, Z times and 10 times of intensity of the geomagnetic field in the 3-axis direction are continuously collected respectively;

step SB: taking the average value of the magnetic field intensity of 10 times in the step SA as the real magnetic field intensity acquired at the time;

step SC: respectively and circularly storing 10X-axis field intensity data in 10s, 10Y-axis field intensity data in 10s and 10Z-axis field intensity data in 10 s;

step SD: respectively taking out the maximum value and the minimum value of the X-axis field intensity data, the maximum value and the minimum value of the Y-axis field intensity data and the maximum value and the minimum value of the Z-axis field intensity data stored in the step SC;

step SE: respectively judging whether the difference between the maximum value and the minimum value of the X-axis field intensity data, the Y-axis field intensity data and the Z-axis field intensity data is greater than a threshold value; if the difference between the maximum value and the minimum value of at least 2 axes is larger than the threshold value, the power distribution cabinet door is considered to have action, otherwise, the power distribution cabinet door does not have action.

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

(1) the invention realizes more comprehensive management and control, realizes the association fusion and the matching unification of production elements such as 'things, people' and the like, and has stronger security control; the power distribution cabinet door that the intelligence matches the task list and corresponds implements simply, and the cost is lower.

(2) The invention controls the operation equipment correspondingly, and avoids the casualties caused by the operation of a wrong power distribution cabinet and no power failure.

Drawings

Fig. 1 is a flowchart of a cabinet door monitoring operation according to an embodiment of the present invention.

Fig. 2 is a flowchart of determining the door opening and closing actions according to an embodiment of the present invention.

Detailed Description

The invention is further explained below with reference to the drawings and the embodiments.

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The embodiment provides an intelligent matching method of a power distribution cabinet and a task list, and provides a background system, which comprises the following steps:

step S1: two sensors and RFID tags are installed on a cabinet door of a power distribution cabinet and used for monitoring the locking state of the cabinet door and the opening and closing state of the cabinet door;

step S2: after the task list is issued, the background system sends specific time operation information to the corresponding power distribution cabinet, and corresponding personnel go to the specified intelligent power distribution cabinet and upload position information in real time;

step S3: monitoring the state of a cabinet door of the power distribution cabinet, and uploading the opening and closing and unlocking actions of the cabinet door to the background system through the RFID tag so as to realize real-time monitoring of the power distribution cabinet; the method comprises the following steps that when a cabinet door is opened and closed, a worker carries out unlocking and locking actions, wherein the unlocking and locking actions comprise four states of door closing and locking, door closing and unlocking, unlocking and door opening, and door opening by locking and unlocking;

step S4: and aiming at the different states of the cabinet door of the power distribution cabinet monitored in the step S3, the background system issues different tasks to the power distribution cabinet, and after the staff executes the tasks, the staff feeds back information to the background system and closes the door and falls the lock.

As shown in fig. 1, in this embodiment, the step S3 specifically includes the following steps:

step S31: turning on two sensors;

step S32: acquiring geomagnetic field intensity in XYZ3 directions, a cabinet door opening and closing state, unlocking and locking;

step S33: judging the opening/closing action through an algorithm; if the door is opened, the RFID transmits a door opening action signal and an unlocking and locking action executed by a worker to the background system, and then the step S34 is executed; otherwise, executing step S34;

step S34: the background system enters the dormancy state and starts the RTC timing;

step S35: judging whether the timing interval (1 s) is reached; if so, the process returns to step S31, otherwise, the process returns to step S34.

As shown in fig. 2, in the present embodiment, the determining the door opening/closing motion by the algorithm in step S33 specifically includes the following steps:

step SA: x, Y, Z times and 10 times of intensity of the geomagnetic field in the 3-axis direction are continuously collected respectively;

step SB: taking the average value of the magnetic field intensity of 10 times in the step SA as the real magnetic field intensity acquired at the time;

step SC: respectively and circularly storing 10X-axis field intensity data in 10s, 10Y-axis field intensity data in 10s and 10Z-axis field intensity data in 10 s;

step SD: respectively taking out the maximum value and the minimum value (Xmax, Xmin) of the X-axis field intensity data, the maximum value and the minimum value of the Y-axis field intensity data and the maximum value and the minimum value of the Z-axis field intensity data stored in the step SC;

step SE: respectively judging whether the difference between the maximum value and the minimum value of the X-axis field intensity data, the Y-axis field intensity data and the Z-axis field intensity data is greater than a threshold value; if the difference between the maximum value and the minimum value of at least 2 axes is larger than the threshold value, the power distribution cabinet door is considered to have action, otherwise, the power distribution cabinet door does not have action.

In this embodiment, utilize the RFID technique, the back is assigned to the task list, and the backstage is told to correspond the switch board concrete time operating information, goes to appointed intelligent power distribution cabinet as the personnel that correspond, uploads positional information in real time, opens when the distribution cabinet door, and the entrance guard label changes cabinet door state, sends for backstage system, if non-task list specifies the switch board, the entrance guard label will have buzzing sound suggestion to will report an emergency and ask for help or increased vigilance information and send backstage system, make illegal operation suggestion.

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the present invention.

Claims (3)

1. A power distribution cabinet and task list intelligent matching method provides a background system, and is characterized in that: the method comprises the following steps:

step S1: two sensors and RFID tags are installed on a cabinet door of a power distribution cabinet and used for monitoring the locking state of the cabinet door and the opening and closing state of the cabinet door;

step S2: after the task list is issued, the background system sends specific time operation information to the corresponding power distribution cabinet, and corresponding personnel go to the specified intelligent power distribution cabinet and upload position information in real time;

step S3: monitoring the state of a cabinet door of the power distribution cabinet, and uploading the opening and closing and unlocking actions of the cabinet door to the background system through the RFID tag so as to realize real-time monitoring of the power distribution cabinet; the method comprises the following steps that when a cabinet door is opened and closed, a worker carries out unlocking and locking actions, wherein the unlocking and locking actions comprise four states of door closing and locking, door closing and unlocking, unlocking and door opening, and door opening by locking and unlocking;

step S4: and aiming at the different states of the cabinet door of the power distribution cabinet monitored in the step S3, the background system issues different tasks to the power distribution cabinet, and after the staff executes the tasks, the staff feeds back information to the background system and closes the door and falls the lock.

2. The intelligent matching method for the power distribution cabinet and the task list according to claim 1, characterized in that:

the step S3 specifically includes the following steps:

step S31: turning on two sensors;

step S32: acquiring geomagnetic field intensity in XYZ3 directions, a cabinet door opening and closing state, unlocking and locking;

step S33: judging the opening/closing action through an algorithm; if the door is opened, the RFID transmits a door opening action signal and an unlocking and locking action executed by a worker to the background system, and then the step S34 is executed; otherwise, executing step S34;

step S34: the background system enters the dormancy state and starts the RTC timing;

step S35: judging whether a timing interval is reached; if so, the process returns to step S31, otherwise, the process returns to step S34.

3. The intelligent matching method for the power distribution cabinet and the task list according to claim 2, characterized in that: the determining of the opening/closing door motion through the algorithm in step S33 specifically includes the following steps:

step SA: x, Y, Z times and 10 times of intensity of the geomagnetic field in the 3-axis direction are continuously collected respectively;

step SB: taking the average value of the magnetic field intensity of 10 times in the step SA as the real magnetic field intensity acquired at the time;

step SC: respectively and circularly storing 10X-axis field intensity data in 10s, 10Y-axis field intensity data in 10s and 10Z-axis field intensity data in 10 s;

step SD: respectively taking out the maximum value and the minimum value of the X-axis field intensity data, the maximum value and the minimum value of the Y-axis field intensity data and the maximum value and the minimum value of the Z-axis field intensity data stored in the step SC;

step SE: respectively judging whether the difference between the maximum value and the minimum value of the X-axis field intensity data, the Y-axis field intensity data and the Z-axis field intensity data is greater than a threshold value; if the difference between the maximum value and the minimum value of at least 2 axes is larger than the threshold value, the power distribution cabinet door is considered to have action, otherwise, the power distribution cabinet door does not have action.

Images