CN111242325A - A method for generating secondary labels for power collection equipment - Google Patents

Abstract

The invention discloses a method for generating a secondary label for electric power collection equipment, and relates to the field of electric power information collection. In the existing power business system, the label portrait is usually single-dimensional, and the importance of each label is the same. The understanding of the label is mainly displayed, and the multi-dimensional and multi-scenario application of the label is lacking. The method includes the steps of: 1) locating the main object of the label; 2) establishing a secondary label directory for the main object; 3) marking the main object with a label to form the main object label as a first-level label, and when labeling, it needs to be graded according to the label level; 4) Create a secondary label under the main object label. The secondary label includes static label and dynamic label. Dynamic label can display different content according to the actual situation of the object. From a multi-dimensional and multi-scenario perspective, it comprehensively reflects the status information of the collection equipment, which is convenient for judging the impact of abnormal collection equipment, and improves the ability to judge the maintenance and working status of the collection equipment.

Description

A method for generating secondary labels for power collection equipment

technical field

The invention relates to the field of electric power information collection, in particular to a method for generating a secondary label for electric power collection equipment.

Background technique

At present, with the increasingly perfect construction of electric power collection informatization, electric power collection data is exerting application value in more and more fields. There are different types and quantities of power acquisition equipment, and the data is distributed in different business systems. With the trend of higher and higher requirements for electricity collection data, the real-time monitoring and panoramic grasp of the characteristics of the collection equipment objects are becoming more and more important. Prior to this, traditional informatization methods were usually used to maintain and manage acquisition equipment, such as equipment file management, equipment status monitoring, etc., which lacked the characterization of equipment panoramic characteristics and the decomposition analysis of equipment depth; In research, the traditional tag portrait system is usually single-dimensional, and the importance of each tag is the same. The understanding of tags is mainly displayed, and the multi-dimensional and multi-scene design and application of tags are lacking.

SUMMARY OF THE INVENTION

The technical problem to be solved and the technical task proposed by the present invention are to perfect and improve the existing technical solutions, and provide a secondary label generation method for power collection equipment, so as to comprehensively reflect the main object from the perspective of multi-dimensional and multi-scene The status of the collection equipment is better achieved for the purpose of maintenance and management. Therefore, the present invention adopts the following technical solutions.

A method for generating secondary labels for power collection equipment, comprising the following steps:

1) Locate the main object of the label, and the main object of the label includes the user, the station area, the meter and the terminal;

2) Establish a secondary label directory for each of the four main objects of the user, the station area, the meter and the terminal;

3) Label the main object to form the main object label as a first-level label, and the first-level label automatically corresponds to the first-level label directory of the corresponding main object;

4) Create a sub-tag under the main object label as a secondary label, and the secondary label automatically corresponds to the secondary label directory of the corresponding main object.

By establishing multiple first-level labels and multiple second-level labels for the main object, the status and information of the main object's acquisition equipment can be fully reflected from the perspective of multi-dimensional and multi-scene, and the maintenance and management of the acquisition equipment can be better achieved. The directory can automatically associate and store tag information, and the method can be effectively applied to existing information systems related to power collection equipment, and comprehensively improves the ability to judge the maintenance and working status of the collection equipment.

As the preferred technical means: in step 3), according to the importance of the label to the collection service, the main object tag label is graded, and the first, second and third grades are set, and each label has a corresponding grade. For grade labels, proof materials must be submitted when labeling to prove that the situation reflected in the label does exist, and the approval shall be carried out according to the county-city-province level. Label, label the main object directly without approval when labeling. Through the level distinction and marking process, the marking efficiency and the rationality of marking can be effectively improved.

As a preferred technical means: each subject object tag includes a basic attribute tag category and a running exception tag category, wherein the user object tag also includes a behavior attribute tag category, and each tag category includes a variety of first-level tags. The tags each include a variety of secondary tags. It can effectively realize the comprehensive label setting of the main object.

As a preferred technical means: the secondary label includes two types: static label and dynamic label. When the dynamic label is marked to an object, different objects display different content according to the actual situation of the object, and the static label displays static content. Through static tags and dynamic tags, the abnormal influence of the main object can be judged, which is convenient for remote prediction of equipment abnormality, and prompts the on-site processing personnel to deal with it reasonably.

Beneficial effects: By establishing a variety of primary labels and secondary labels for the main object, and displaying them through dynamic labels, the status and information of the acquisition equipment can be comprehensively reflected from the perspective of multi-dimensional and multi-scenarios, which is convenient for judging the abnormality of the acquisition equipment. The impact of the situation is convenient for remote prediction of equipment abnormalities, prompting the on-site processing personnel to deal with it reasonably, and to better maintain and manage the collection equipment. This method can be effectively applied to the existing information systems related to power collection equipment, and comprehensively improves the collection The ability to judge the maintenance and working status of equipment.

Description of drawings

Fig. 1 is a schematic flow chart of the present invention.

FIG. 2 is a schematic diagram of the labeling process in step 3) of the present invention.

Detailed ways

The technical solutions of the present invention will be further described in detail below with reference to the accompanying drawings.

As shown in Figure 1, a method for generating secondary labels for power collection equipment includes the following steps:

1) Locating the main object of the label, equipment is an important object in the collection and measurement business, the existing system is based on the collection closed-loop management system developed by the collection operation and maintenance business, and uses the work order as the carrier to realize the operation and maintenance management of the collection and measurement equipment. The work order includes equipment, The three objects of user and station area are divided into equipment, meter, station area and user as the main objects of the label in order to fully describe the equipment status.

2) Establish a secondary label directory for each of the four main objects of the user, the station area, the meter and the terminal;

3) As shown in Figure 2, label the main object, and form the main object label as the first-level label. According to the importance of the label to the collection service, the main object label is graded, and the first, second, and third levels are set. Each label has a corresponding level. If it is a first- or second-level label, it is necessary to submit certification materials when labeling to prove that the situation reflected in the label does exist, and it is approved according to the county-city-province three levels. If it is successful, it will be terminated if it fails to pass the label marking; if it is a three-level label, the main object will be directly marked with a label without approval when labeling, and the first-level label will automatically correspond to the first-level label directory of the corresponding main object.

4) A sub-tag is established under the main object label as a secondary label. The sub-label is included in the upper-level label to reflect the more specific and detailed status of the object, which is convenient for application in the collection business process. Each main object label includes the basic attribute label category and operation exception label categories, wherein the user object label also includes behavior attribute label categories, each label category includes multiple first-level labels, and each first-level label includes multiple second-level labels. It can effectively realize the comprehensive label setting of the main object. For example, users can use the labels of "collection exception" and "measurement exception". There are various specific types of exceptions under collection exceptions and measurement exceptions. Different exceptions can be used as sub-labels to reflect the status of the object. Corresponding measures can be taken according to specific exceptions to assist For collection operation and maintenance, the tabs and subtabs of "collection exception" and "measurement exception" are as follows.

The secondary label automatically corresponds to the secondary label directory of the corresponding subject object.

In order to intuitively judge the abnormal status of the equipment, there are two types of secondary labels: static labels and dynamic labels. When a dynamic label is marked to an object, different objects display different content according to the actual situation of the object. The static label displays static content, and the static label displays the static content. And dynamic tags can determine the abnormal influence of the main object, which is convenient for remote prediction of equipment abnormality, and prompts the on-site processing personnel to deal with it reasonably.

Dynamic tags can dynamically obtain information such as failure times and local communication methods. Static word, that is, the name of the label displayed in the label list, Variation, that is, when the label is marked to an object, different objects display different content according to the actual situation of the object. For example: the terminal has "battery undervoltage (N times)", according to the static label name "battery undervoltage" and the dynamic N times, the influence of the abnormality can be judged, and the abnormality of the equipment can be predicted remotely, prompting the on-site processing personnel to need to replace it. Carry out analysis of terminal power outage events that cannot be reported normally, guide the reliability of power supply, collect operation and maintenance analysis, and evaluate suppliers.

By establishing multiple first-level labels and multiple second-level labels for the main object, the status and information of the main object's acquisition equipment can be fully reflected from the perspective of multi-dimensional and multi-scene, and the maintenance and management of the acquisition equipment can be better achieved. The directory can automatically associate and store tag information, and the method can be effectively applied to existing information systems related to power collection equipment, and comprehensively improves the ability to judge the maintenance and working status of the collection equipment.

The method for generating a secondary label for a power collection device as shown in Figures 1-2 above is a specific embodiment of the present invention, which has embodied the outstanding substantive features and significant progress of the present invention. Under the inspiration of the present invention, equivalent modifications in terms of shape and structure are included in the protection scope of this solution.

Claims (4)

1. A secondary label generation method facing to power acquisition equipment is characterized by comprising the following steps:

1) positioning a tag main body object, wherein the tag main body object comprises a user, a distribution area, a meter and a terminal;

2) respectively establishing a secondary label directory for four main objects of a user, a distribution area, a meter and a terminal;

3) marking a plurality of labels for the main body object, wherein the formed main body object label is used as a primary label, and the primary label automatically corresponds to a primary label catalog of the corresponding main body object;

4) and establishing multiple sub-labels as secondary labels under the main object labels, wherein the secondary labels automatically correspond to the secondary label catalog of the corresponding main object.

2. The secondary label generation method for the power acquisition equipment as claimed in claim 1, wherein the method comprises the following steps: in step 3), grading the grade of the main object marking label according to the importance of the label to the acquisition service, setting a first grade, a second grade and a third grade, wherein each label has a grade correspondence, if the label is the first grade label and the second grade label, a certification material needs to be submitted when the label is printed, the condition reflected by the label is proved to exist really, the label is approved according to the county-city-province three grades, the label marking is successful if the label passes the grade by grade, and the label marking failure is not terminated; if the label is a three-level label, the label is directly marked to the main object without examination and approval during labeling.

3. The secondary label generation method for the power acquisition equipment as claimed in claim 1, wherein the method comprises the following steps: each main object label comprises a basic attribute label category and an abnormal operation label category, wherein the user object label further comprises a behavior attribute label category, each label category comprises a plurality of first-level labels, and each first-level label comprises a plurality of second-level labels.

4. The secondary label generation method for the power acquisition equipment as claimed in claim 3, wherein the secondary label generation method comprises the following steps: the secondary labels comprise two types of static labels and dynamic labels, when the dynamic labels are marked on the objects, different objects display different contents according to the actual conditions of the objects, and the static labels display the static contents.

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