CN208078718U - It is a kind of based on take can CT high voltage platform for electric installation - Google Patents

Abstract

The utility model is related to it is a kind of based on take can CT high voltage platform for electric installation, including taking can CT, current-to-voltage convertor, charge controller, accumulator, inverter and load.A terminated high voltage circuit for taking energy CT takes the input terminal of the secondary termination current-to-voltage convertor of energy CT.The input terminal of the output termination charge controller of the current-to-voltage convertor.The input terminal of the output termination inverter of the charge controller.The output terminating load of the inverter.The positive and negative anodes of the accumulator connect the positive and negative anodes of the input terminal of inverter respectively.By above technical scheme it is found that the utility model is by taking energy CT constantly to charge to accumulator, the electric energy that accumulator storage can be effectively ensured meets the power demand loaded on high voltage platform.

Description

It is a kind of based on take can CT high voltage platform for electric installation

Technical field

The utility model is related to high voltage platforms to take energy technical field of power generation, and in particular to a kind of based on the high-voltage flat for taking energy CT Platform is for electric installation.

Background technology

With the development of economy, not only electric load and net capacity increasingly increase, and transmission of electricity high pressure level is also continuously improved, together When constantly increased short circuit current it is increasing to the impact of electric system electrical equipment.It is constantly extensive in ultra-high-tension power transmission line Application in, high-voltage circuitbreaker need to be just installed in ultra-high-tension power transmission line, it is short in electric power system fault or limitation system to be isolated The intensity of road electric current.It is all made of insulating support rod in high-voltage electrical apparatus platform and improves the insulation of platform over the ground, to meet platform over the ground The requirement of insulation must just abandon the pattern that traditional middle low-pressure system is powered in the past, need to redesign a kind of new powering mode, This pattern will not only meet the power demand of various loads on high voltage platform, while insulation against ground also needs and high-voltage isulation requirement phase Cooperation.

Currently, existing high voltage platform power supply mode is undesirable, there are many problems：1. transmission efficiency is low for electric energy； 2. electric energy function is uncontrollable；3. instantaneous maximum power demand cannot be met.

Utility model content

The purpose of this utility model is to provide it is a kind of based on take can CT high voltage platform for electric installation, which can solve Certainly the deficiencies in the prior art meet the power demand of various loads on high voltage platform, have simple in structure, safe and reliable The features such as.

To achieve the above object, the utility model uses following technical scheme：

It is a kind of based on take can CT high voltage platform for electric installation, including take can CT, current-to-voltage convertor, charge control Device, accumulator, inverter and load；A terminated high voltage circuit for taking energy CT, takes the secondary termination Current Voltage of energy CT The input terminal of converter；The input terminal of the output termination charge controller of the current-to-voltage convertor；The charge controller Output termination inverter input terminal；The output terminating load of the inverter；The positive and negative anodes of the accumulator connect inverse respectively Become the positive and negative anodes of the input terminal of device.

Further, the charge controller uses MPPT charge controllers.

Specifically, described take energy CT, for converting the electric energy in circuit to secondary low current by electromagnetic induction.Institute Current-to-voltage convertor is stated, for the secondary low current of energy CT will to be taken to be converted into constant DC voltage.The MPPT chargings control Device processed uses maximum power technique of real-time control, and MPPT charge controllers is made to continue Maximum Power Output.The accumulator, is used for Store electric energy.The inverter, the current inversion for exporting accumulator is exchange, to meet the use loaded on high voltage platform Electricity demanding.

By above technical scheme it is found that the utility model can be protected effectively by taking energy CT constantly to charge to accumulator The electric energy of card accumulator storage meets the power demand loaded on high voltage platform.

Description of the drawings

Fig. 1 is the circuit diagram of the utility model.

Wherein：

1, take can CT, 2, current-to-voltage convertor, 3, charge controller, 4, inverter, 5, load, 6, accumulator.

Specific implementation mode

The utility model is described further below in conjunction with the accompanying drawings：

It is as shown in Figure 1 it is a kind of based on take can CT high voltage platform for electric installation, including taking can CT1, Current Voltage conversion Device 2, charge controller 3, accumulator 6, inverter 4 and load 5.A terminated high voltage circuit for taking energy CT1, taking can CT1 Secondary termination current-to-voltage convertor 2 input terminal；The output termination charge controller 3 of the current-to-voltage convertor 2 Input terminal；The input terminal of the output termination inverter 4 of the charge controller 3；The output terminating load 5 of the inverter 4；Institute State accumulator 6 positive and negative anodes connect respectively inverter 4 input terminal positive and negative anodes.

Further, the charge controller 3 uses MPPT charge controllers, MPPT charge controllers to detect electric current in real time The output of electric pressure converter 2 is matched with the output of current-to-voltage convertor 2 by constantly adjusting inner parameter, makes Current Voltage Converter 2 exports always maximum effective power.

Specifically, described take energy CT1, for converting the electric energy in circuit to secondary low current by electromagnetic induction. The current-to-voltage convertor 2, for the secondary low current of energy CT will to be taken to be converted into constant DC voltage.The MPPT chargings Controller 3 uses maximum power technique of real-time control, and MPPT charge controllers is made to continue Maximum Power Output.The accumulator 6, For storing electric energy.The inverter 4, the current inversion for exporting accumulator are exchange, are born on high voltage platform with meeting The power demand of load.

In conclusion accumulator storage can be effectively ensured by taking energy CT constantly to charge to accumulator in the utility model The electric energy deposited meets the power demand loaded on high voltage platform.

Embodiment described above is only that preferred embodiments of the present invention are described, not to this practicality Novel range is defined, and under the premise of not departing from the spirit of the design of the utility model, those of ordinary skill in the art are to this The various modifications and improvement that the technical solution of utility model is made should all fall into the protection of the utility model claims book determination In range.

Claims (2)

1. it is a kind of based on take can CT high voltage platform for electric installation, it is characterised in that：Including take can CT, current-to-voltage convertor, Charge controller, accumulator, inverter and load；A terminated high voltage circuit for taking energy CT, takes the secondary termination of energy CT The input terminal of current-to-voltage convertor；The input terminal of the output termination charge controller of the current-to-voltage convertor；It is described to fill The input terminal of the output termination inverter of electric controller；The output terminating load of the inverter；The positive and negative anodes of the accumulator The positive and negative anodes of the input terminal of inverter are connect respectively.

2. it is according to claim 1 it is a kind of based on take can CT high voltage platform for electric installation, it is characterised in that：The charging Controller uses MPPT charge controllers.