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Transformer protection method, capacity controller and protection system

A technology of transformers and capacitor controllers, which is applied to emergency protection circuit devices, instruments, and measurement of electrical variables, etc. It can solve problems such as poor stability of power distribution systems, transformer shocks, and instantaneous current increases, achieving strong stability and improved performance. easily damaged effects

Active Publication Date: 2019-10-15
张晓菊
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In order to ensure that the transformer is in a safe working state, its normal load is far lower than the rated load of the transformer, which causes the load utilization rate of the transformer to be low, and when the normal operating load of the transformer exceeds its rated load, it will cause The large loss of the transformer also makes the stability of the power distribution system worse
[0003] In the existing power distribution system, when the total current of the electrical products used at the user end is too large, the instantaneous current fed back to the transformer will also increase rapidly, which will have a rapid impact on the transformer

Method used

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  • Transformer protection method, capacity controller and protection system
  • Transformer protection method, capacity controller and protection system
  • Transformer protection method, capacity controller and protection system

Examples

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Effect test

Embodiment 1

[0050] Embodiment 1 of the present application provides a transformer protection method, which is applied to a capacitor controller, such as figure 1 As shown, it specifically includes the following steps:

[0051] Step 110, pre-set the rated current value and preset overrun recovery value for each phase of AC in the capacity controller;

[0052] Preferably, in the three-phase power of the capacitive controller, a corresponding rated current value is set for each phase of the alternating current; in addition, in order to ensure the safety of the transformer, it also includes setting the maximum current value for each phase of the alternating current of the capacitive controller in advance, The maximum current value is 10% smaller than the maximum value of the transformer; the maximum current value is set to a, the rated current value is m, the preset detection interval is set to 1 hour, and the preset over-limit recovery value is L; among them, the preset The detection interv...

Embodiment 2

[0087] image 3 The specific method flow chart of the transformer protection system provided by the embodiment of the present application ( image 3 The shown transformer protection system consists of a capacity controller and a quantifier that can communicate with it). like image 3 As shown, the methods shown include:

[0088] Step 301, the capacity controller regularly detects the real-time total current of each phase of alternating current;

[0089] Step 302, when the capacity controller detects that the real-time total current of a certain phase of alternating current exceeds the rated current value, transmit the allocation power consumption indication to the quantifier; the deployment power consumption indication carries the allocation strategy generated by the capacity controller;

[0090] Step 303: After receiving the allocation power consumption indication, the quantifier adjusts the rated current of the scaler according to the allocation strategy in the allocation...

Embodiment 3

[0096] Figure 4 The specific method flow chart of the transformer protection system provided by the embodiment of the present application ( Figure 4 The transformer protection system shown is composed of a capacity controller, a background server and a quantifier). like Figure 4 As shown, the methods shown include:

[0097] Step 401, the capacity controller regularly detects the real-time total current of each phase of alternating current;

[0098] Step 402, when the capacity controller detects that the real-time total current of a certain phase of alternating current exceeds the rated current value, transmit the deployment power consumption indication to the background server; the deployment power consumption indication carries the detected real-time total current;

[0099] Step 403, the background server generates a deployment strategy according to the real-time total current in the received distribution power consumption instruction, and sends the adjustment strategy ...

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Abstract

The invention discloses a transformer protection method, a capacity controller and a protection system. The method is applied to the capacity controller mounted on the transformer, and particularly comprises steps: a rated current value and a preset over limit recovery value are set for each phase of AC in the capacity controller; the real-time total current of each phase of AC is detected regularly; when the real-time total current of a certain phase of AC is detected to exceed the rated current value of the phase of AC, a power consumption dispatching instruction is transmitted to a batcher;and when the real-time total current of each phase of AC is detected to be lower than the preset over limit recovery value within a preset time after transmission of the power consumption dispatchinginstruction to the batcher, a batcher rated current recovery instruction is transmitted to the batcher. The problem that the transformer is extremely likely to be damaged due to no current protectionbetween the transformer and the batcher in the prior art can be improved, and the stability of a distribution system is stronger.

Description

technical field [0001] The present application relates to the technical field of power load control, and in particular to a method for protecting a transformer, a capacitor controller and a protection system. Background technique [0002] In the power distribution system, the transformer is used as the core device to change the magnitude of the AC voltage and deliver the appropriate voltage to the power distribution circuit. In order to ensure that the transformer is in a safe working state, its normal load is far lower than the rated load of the transformer, which causes the load utilization rate of the transformer to be low, and when the normal operating load of the transformer exceeds its rated load, it will cause The large loss of the transformer also makes the stability of the power distribution system worse. [0003] In the existing power distribution system, when the total current of the electrical products used at the user end is too large, the instantaneous current...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02H7/04G01R19/165
CPCH02H7/04G01R19/16547
Inventor 张增禄刘超
Owner 张晓菊