Meter reading method for electric power acquisition terminal

Abstract

The invention relates to a meter reading method for a power acquisition terminal, and the method comprises the following steps: S1, reading important data of a power utilization terminal on the first day, and turning to S2 if one of judgment conditions is met during reading; if not, continuing to read the important data; S2, reading common data of the power utilization terminal, and calculating a meter reading success rate of the first day; S3, entering the next day, judging whether the meter reading success rate of the previous day is greater than D%, if so, turning to S4; if not, updating the judgment condition, and turning to S4; S4, enabling the power acquisition terminal to read the data of the power utilization terminal in the next day according to the same mode in S1 and S2; S5, in each day later, enabling the power acquisition terminal to read the data of the power utilization terminal according to the same mode in S3 and S4. According to the method, the meter reading speed of the power acquisition terminal is increased, and the meter reading time is shortened.

Description

technical field [0001] The invention relates to the field of power collection, in particular to a meter reading method for a power collection terminal. Background technique [0002] The meter reading method of the existing power collection terminal, such as figure 1 As shown, by setting a fixed meter reading success rate setting value, when the success rate of meter reading when the power collection terminal reads the important data of the power consumption terminal exceeds M%, the power collection terminal jumps to read the power consumption terminal. The ordinary data of the terminal is then transcribed at the end of the power consumption terminal that has not been transcribed. In theory, this existing meter reading method is practical. [0003] Due to the existence of load operating environments such as on-site replacement of power consumption terminals, crosstalk between stations, complex stations, chaotic file stations, and poor networking stations, the success rate of...

AI Technical Summary

Problems solved by technology

[0003] Due to the existence of load operating environments such as on-site replacement of power consumption terminals, crosstalk between stations, complex stations, chaotic file stations, and poor networking stations, the success rate of meter reading from power collection terminals to power terminals is reduced. Therefore, the meter reading There are many failed power consumption terminals. If you still use the existing meter reading method at this time, you need to wait for the meter reading success rate to exceed M% when the meter reading fails, before you can read the common data of the power consumption terminal. Therefore Long meter reading time and low success rate of meter reading

At this stage, the main way to increase the meter reading rate in this type of station area is to manually find out the cause and then make changes. The efficiency is low, and there is no way to deal with it in a large area. The intelligent function of the collection terminal cannot be brought into play, which affects the customer experience.

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