A kind of data processing method of grid equipment and system
Technical field
The application relates to data processing technique, particularly relates to a kind of data processing method and system of grid equipment.
Background technology
Grid equipment routine is infrared patrol and examine in often because measuring point is many, cannot carry out the collection of temperature data to all measuring points, equipment management work is complicated.
In grid equipment, great majority are current caused hot type equipment, and hot(test)-spot temperature is high.Due to reasons such as grid equipment different time thermal imagery feature are not obvious, be easily disturbed, be difficult in prior art make a definite diagnosis the fault of grid equipment fast, thus have great hidden danger to the safe and stable operation of grid equipment and electrical network.From current accident statistics and investigation and analysis, suddenly to be struck by lightning except grid equipment or circuit occurs except the sudden accidents such as short circuit, the most of fault of grid equipment is all progressively occur and develop, and through vicious cycle after a while, just leads to heavy losses accident.
Also grid equipment is not carried out to the management of system in prior art, and then cannot make a definite diagnosis fast the fault of grid equipment.
Summary of the invention
In view of this, the technical matters that the application will solve is, provides a kind of data processing method and system of grid equipment, can gather the temperature data of grid equipment, and carry out unifying to store with the facility information of grid equipment, thus make a definite diagnosis for the fault of grid equipment data basis is provided.
For this reason, the embodiment of the present application adopts following technical scheme:
A data processing method for grid equipment, comprising:
For each grid equipment, gather the infrared picture data stream of this grid equipment; Obtain the facility information of each grid equipment;
By facility information corresponding stored corresponding with this grid equipment for the infrared picture data stream collected.
For each grid equipment, the infrared picture data stream gathering this grid equipment comprises:
When the defect menace level of grid equipment is greater than grade threshold, this grid equipment is carried out to the panoramic scanning of each predetermined angle, obtain the infrared picture data stream of this each predetermined angle of grid equipment;
When the defect menace level of grid equipment is not more than grade threshold, this grid equipment is carried out to the scanning of a predetermined angle, obtain the infrared picture data stream of this grid equipment in this predetermined angle.
The infrared picture data stream gathering this grid equipment is gathered by Dynamic IR thermal imaging system.
The facility information of described each grid equipment of acquisition comprises:
There is provided facility information inputting interface to user, in facility information inputting interface, obtain the facility information of the grid equipment of user's input; Or,
There is provided facility information inputting interface to user, in facility information inputting interface, obtain the facility information of the grid equipment of user's input and be stored in preset memory locations; The facility information of grid equipment is obtained from preset memory locations.
Described grid equipment comprises: tension-resistant rod, switch, lightning arrester, plug-in strip, cable end, pole transformer, indoor transformer;
Described facility information comprises: the title of grid equipment, sweep time, affiliated line name, bar number, separate, defect menace level;
Described infrared picture data stream comprises: the infrared Video data of grid equipment or the thermal-induced imagery of grid equipment.
A data handling system for grid equipment, comprising:
Collecting unit, for for each grid equipment, gathers the infrared picture data stream of this grid equipment;
Acquiring unit, for obtaining the facility information of each grid equipment;
Storage unit, the facility information corresponding stored that the infrared picture data stream for collecting is corresponding with this grid equipment.
Collecting unit specifically for:
When the defect menace level of grid equipment is greater than grade threshold, this grid equipment is carried out to the panoramic scanning of each predetermined angle, obtain the infrared picture data stream of this each predetermined angle of grid equipment;
When the defect menace level of grid equipment is not more than grade threshold, this grid equipment is carried out to the scanning of a predetermined angle, obtain the infrared picture data stream of this grid equipment in this predetermined angle.
Described collecting unit is realized by Dynamic IR thermal imaging system.
Acquiring unit specifically for: provide facility information inputting interface to user, in facility information inputting interface, obtain the facility information of grid equipment of user's input; Or,
Acquiring unit specifically for: provide facility information inputting interface to user, obtain in facility information inputting interface user input grid equipment facility information and be stored in preset memory locations; The facility information of grid equipment is obtained from preset memory locations.
Described grid equipment comprises: tension-resistant rod, switch, lightning arrester, plug-in strip, cable end, pole transformer, indoor transformer;
Described facility information comprises: the title of grid equipment, sweep time, affiliated line name, bar number, separate, defect menace level;
Described infrared picture data stream comprises: the infrared Video data of grid equipment or the thermal-induced imagery of grid equipment.
Technique effect for technique scheme is analyzed as follows:
For each grid equipment, gather the infrared picture data stream of this grid equipment; Obtain the facility information of each grid equipment; By facility information corresponding stored corresponding with this grid equipment for the infrared picture data stream collected.Thus the collection achieved for grid equipment temperature data, the system of the temperature data and facility information that achieve each grid equipment manages, especially the infrared picture data stream for grid equipment carries out system management, thus makes a definite diagnosis for the fault of grid equipment and provide data basis.
Accompanying drawing explanation
In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, for those of ordinary skills, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.
Fig. 1 is the data processing method schematic flow sheet of the embodiment of the present application grid equipment;
Fig. 2 is the data handling system structural representation of the embodiment of the present application grid equipment.
Embodiment
Dynamic IR thermal imaging system of the prior art is that the in-depth analysis of grid equipment defect and diagnosis provide a new approach, Dynamic IR thermal imaging system can Temperature Distribution variation tendency rule under the working condition such as emphasis Real-Time Monitoring record grid equipment different time sections, different load, forms full and accurate data basis for estimation.Concrete,
Dynamic IR thermal imaging system can adopt Dynamic IR continuous bath temperature measurement technology, the thermal-induced imagery of continuous sweep grid equipment within certain a period of time, the continuous print thermal-induced imagery that the thermal-induced imagery in described continuous sweep grid equipment a period of time obtains is called the infrared Video data of grid equipment; The thermal-induced imagery in each moment accurately can show the profiling temperatures on this moment grid equipment surface; And, Dynamic IR thermal imaging system can also when the load of variation of ambient temperature or grid equipment changes, according to infrared Video data calculate respectively grid equipment surface certain a bit, a certain region, a certain line temperature variation curve, in addition, there are some Dynamic IR thermal imaging systems according to the infrared Video data of grid equipment, the temperature information of the various grid equipments such as dynamic infrared data list, histogram temperature curve, time-temperature curve can also be generated.Dynamic IR thermal imaging system generates the principle of above-mentioned information and method the application does not repeat.
In order to solve temperature data acquisition and the process of grid equipment, the embodiment of the present application provides a kind of data processing method and system, the storage of collection for grid equipment temperature and grid equipment information is achieved based on existing Dynamic IR continuous bath temperature measurement technology, and then be the hidden danger position, menace level, development trend etc. of more accurate diagnostic device, for the analysis of grid equipment thermal anomaly, provide reliable data basis for estimation.
Technical scheme in the embodiment of the present application is understood better in order to make those skilled in the art person, and enable the above-mentioned purpose of the embodiment of the present application, feature and advantage become apparent more, below in conjunction with accompanying drawing, technical scheme in the embodiment of the present application is described in further detail.
Fig. 1 is the application's grid equipment data processing method schematic flow sheet, and as shown in Figure 1, the method comprises:
Step 101: for each grid equipment, gathers the infrared picture data stream of this grid equipment;
Step 102: the facility information obtaining each grid equipment;
Wherein, not there is between step 101 and step 102 restriction of execution sequence.
Step 103: by facility information corresponding stored corresponding with this grid equipment for the infrared picture data stream that collects.
In the data processing method of the grid equipment shown in Fig. 1, for each grid equipment, gather the infrared picture data stream of this grid equipment; Obtain the facility information of each grid equipment; By facility information corresponding stored corresponding with this grid equipment for the infrared picture data stream collected.Thus the system achieved for the facility information of each grid equipment manages, the infrared picture data stream especially for grid equipment carries out system management, thus makes a definite diagnosis for the fault of grid equipment and provide data basis.
For step 101:
Wherein, described infrared picture data stream can comprise: the infrared Video data of grid equipment or the thermal-induced imagery of grid equipment.
Described infrared Video data can use the collection of aforesaid Dynamic IR thermal imaging system; Described thermal-induced imagery can use described Dynamic IR thermal imaging system or common infrared thermography collection.
In addition, described infrared picture data stream can also comprise: grid equipment a bit, a certain region, a certain line temperature variation curve, or, the various temperature informations of the grid equipments such as infrared data list, histogram temperature curve, time-temperature curve.Above-mentioned information can generate according to the infrared Video data of grid equipment by having the Dynamic IR thermal imaging system generating above-mentioned informational function, and concrete generation method is not the emphasis that the application pays close attention to, and does not repeat here.
In addition, for each grid equipment described in this step, the infrared picture data stream gathering this grid equipment can comprise:
When the defect menace level of grid equipment is greater than grade threshold, this grid equipment is carried out to the panoramic scanning of each predetermined angle, obtain the infrared picture data stream of this each predetermined angle of grid equipment;
When the defect menace level of grid equipment is not more than grade threshold, this grid equipment is carried out to the scanning of a predetermined angle, obtain the infrared picture data stream of this grid equipment in this predetermined angle.
Wherein, the defect menace level of grid equipment can be determined according to the situation of grid equipment by the user of operation Dynamic IR thermal imaging system or infrared thermography collection infrared picture data stream; Grade threshold can independently set in actual applications.Such as, the defect menace level of grid equipment can be divided into: normal device, concern equipment, general defect, major defect, critical defect etc.; Described grade threshold can be set to major defect etc.This citing is only example, those skilled in the art can carry out change or the distortion of technical scheme on the basis of this example according to actual application environment and demand, such as described grade classification is more rank, and described grade threshold also can adaptations etc., does not limit here.
After user judges whether the defect menace level of grid equipment is greater than grade threshold, indicate corresponding Dynamic IR thermal imaging system or infrared thermography by user, and then realize the collection of described infrared picture data stream by Dynamic IR thermal imaging system or infrared thermography.
For step 102:
The realization of this step can comprise: provide facility information inputting interface to user, obtains the facility information of the grid equipment of user's input in facility information inputting interface.
Wherein, the display screen display that facility information inputting interface can preset by the system or equipment performing method described in the application, such as described system works is in a certain PC, so can at facility information inputting interface described in the display screen display of this PC, thus user can according to the information shown in facility information inputting interface, the items of equipment information of corresponding input grid equipment;
The facility information of described grid equipment can comprise: the title of grid equipment, sweep time, affiliated line name, bar number, separate, defect menace level etc.
Described grid equipment can comprise: tension-resistant rod, switch, lightning arrester, plug-in strip, cable end, pole transformer, indoor transformer etc.
Or, this step can perform in advance, is also namely input in the system of execution the application described in method by facility information inputting interface by the facility information of each grid equipment by user in advance, is stored in a certain default memory location by the facility information of system to the grid equipment of input, at this moment
This step can comprise: provide facility information inputting interface to user, obtains the facility information of the grid equipment of user's input and be stored in preset memory locations in facility information inputting interface; The facility information of grid equipment is obtained from preset memory locations.
Described preset memory locations can be a certain region etc. of a certain memory device, and specific implementation does not limit.
For step 103:
Wherein, the position the application of the facility information corresponding stored that described infrared picture data stream is corresponding with this grid equipment does not limit, a certain memory device can be specified by realizing the technician of method described in the application, and then when implemented above-mentioned information is stored in this memory device.
Corresponding with said method, the embodiment of the present application also provides a kind of data handling system of grid equipment, and as shown in Figure 2, this system comprises:
Collecting unit 210, for for each grid equipment, gathers the infrared picture data stream of this grid equipment;
Acquiring unit 220, for obtaining the facility information of each grid equipment;
Storage unit 230, the facility information corresponding stored that the infrared picture data stream for collecting is corresponding with this grid equipment.
Collecting unit 210 specifically may be used for:
When the defect menace level of grid equipment is greater than grade threshold, this grid equipment is carried out to the panoramic scanning of each predetermined angle, obtain the infrared picture data stream of this each predetermined angle of grid equipment;
When the defect menace level of grid equipment is not more than grade threshold, this grid equipment is carried out to the scanning of a predetermined angle, obtain the infrared picture data stream of this grid equipment in this predetermined angle.
Described collecting unit 210 can be realized by Dynamic IR thermal imaging system.
Acquiring unit 220 specifically may be used for: provide facility information inputting interface to user, obtains the facility information of the grid equipment of user's input in facility information inputting interface; Or,
Acquiring unit 220 specifically may be used for: provide facility information inputting interface to user, obtains the facility information of the grid equipment of user's input and be stored in preset memory locations in facility information inputting interface; The facility information of grid equipment is obtained from preset memory locations.
Wherein, described grid equipment comprises: tension-resistant rod, switch, lightning arrester, plug-in strip, cable end, pole transformer, indoor transformer;
Described facility information comprises: the title of grid equipment, sweep time, affiliated line name, bar number, separate, defect menace level;
Described infrared picture data stream comprises: the infrared Video data of grid equipment or the thermal-induced imagery of grid equipment.
In the data handling system of the grid equipment shown in Fig. 2, for each grid equipment, gather the infrared picture data stream of this grid equipment; Obtain the facility information of each grid equipment; By facility information corresponding stored corresponding with this grid equipment for the infrared picture data stream collected.Thus the system achieved for the facility information of each grid equipment manages, the infrared picture data stream especially for grid equipment carries out system management, thus makes a definite diagnosis for the fault of grid equipment and provide data basis.
Those skilled in the art can be well understood to the mode that technology in the embodiment of the present application can add required general hardware platform by software and realize.Based on such understanding, technical scheme in the embodiment of the present application can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the method described in some part of each embodiment of the application or embodiment.
Each embodiment in this instructions all adopts the mode of going forward one by one to describe, between each embodiment identical similar part mutually see, what each embodiment stressed is the difference with other embodiments.Especially, for system embodiment, because it is substantially similar to embodiment of the method, so description is fairly simple, relevant part illustrates see the part of embodiment of the method.
Above-described the application's embodiment, does not form the restriction to the application's protection domain.The amendment done within any spirit in the application and principle, equivalently to replace and improvement etc., within the protection domain that all should be included in the application.