CN206441030U - A kind of non-contact voltage stabilizer of double winding commutation - Google Patents

Abstract

The utility model discloses a kind of non-contact voltage stabilizer of double winding commutation, including：Adjustable transformer TB, compensator transformer ZB, controllable silicon, power network input are connected to the output U ends that compensator transformer circuit ZB is input to voltage-stablizer again through switching KS, voltage change V3 and voltage change V4 that the two-way commutation winding of adjustable transformer TB connections is produced, voltage-stablizer needs ON switch KS during boosting to produce voltage change V3, and voltage-stablizer needs ON switch KJ during decompression to produce voltage change V4.The beneficial effects of the utility model are：The commutation of boosting and the decompression of compensator transformer is realized with double winding, the safety and reliability of voltage-stablizer operation is strengthened.

Description

A kind of non-contact voltage stabilizer of double winding commutation

Technical field

The utility model is related to AC voltage regulator field, the non-contact voltage stabilizer of particularly two-way winding commutation.

Background technology

It is desirable that being a standard value in the supply voltage that AC network is obtained:220V or 110V. but now actual feelings Our obtained supply voltages of condition, than standard electric be pressed with very big difference be not it is higher be exactly it is relatively low, input fluctuation is enclosed: 10%-60%.Serial connection type AC voltage stabilizer is when input voltage is relatively low, and pressure-control circuit needs boosting, is needed when input voltage is higher Decompression.By boosting change to decompression or by decompression become boost this process---- we be commonly called as commutation.The means of commutation are to pass through Pressure-control circuit excitation end " exchange " Same Name of Ends is realized.Traditional commutation method is to use：Simplex winding " rotating relay " is controlled. This mode is less problematic when commutating infrequently.But misoperation is had when commutating frequent, commutation failure or commutation failure is caused.

Utility model content

How traditional unicoil magnet exciting coil commutation short circuit problem is solved, and this programme uses " double winding commutation ", i.e., with two Individual coil realizes boosting and is depressured it and does not have that " relay rotating control " often occur causes commutation failure or commutation respectively Failure.The reliability of pressure regulation commutation will be greatly improved.To achieve the above object, the utility model provides following technical scheme；

A kind of non-contact voltage stabilizer of double winding commutation, including：Adjustable transformer TB, compensator transformer ZB, controllable silicon, electricity Net input is connected to the output U ends that compensator transformer circuit ZB is input to voltage-stablizer again through switching KS, and adjustable transformer TB connections are double The voltage change V3 and voltage change V4 produced to commutation winding, voltage-stablizer needs ON switch KS during boosting to produce voltage Changing value V3, voltage-stablizer needs ON switch KJ during decompression to produce voltage change V4.

The switch is Double-circuit switch.

The beneficial effects of the utility model are：Realize that switch compensation transformer strengthens voltage-stablizer operation with double winding Safety and reliability.

Brief description of the drawings

Fig. 1 is the circuit structure diagram of the non-contact voltage stabilizer of double winding commutation.

Fig. 2 is the circuit structure diagram of conventional simplex winding non-contact voltage stabilizer.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model.

As shown in figure 1, a kind of non-contact voltage stabilizer of double winding commutation, including：Controllable silicon, adjustable transformer TB and compensation Transformer ZB, power network input is connected to the output U ends that compensator transformer circuit ZB is input to voltage-stablizer again through switching KS, compensates transformation Device circuit ZB magnitude of voltage V2 size determines by adjustable transformer TB voltage changes V3 and voltage change V4, voltage change Value V3 is added with two kinds of voltages any combination of voltage change V4 two independent windings in adjustable transformer TB, and voltage becomes Change value V3 and voltage change V4 output be by two independent windings according to voltage stabilizing the need for, by any two different numbers The Voltage Series of value are added and are output in compensator transformer ZB Exciting Windings for Transverse Differential Protection, and commutate winding, and simplex winding commutation only has winding Voltage change V4；And double winding commutates, on the basis of simplex winding commutation, the voltage change V3 for the winding that also commutates, two Individual winding ON operation in turn.

Power network input is connected to the output U ends that compensator transformer circuit ZB is input to voltage-stablizer again, pressure regulation transformation through switching KS The unidirectional winding of device TB connections and commutation winding, the unidirectional winding and commutation winding are connected by two groups of switches KS, KJ, are turned on Voltage-stablizer output booster voltage, voltage-stablizer output buck voltage when connecting Double-circuit switch KJ when closing KS.KS=KJ during maloperation =1, i.e. V2=0 input=exported V5 and N will not direct short-circuit.

In fig. 2, it is a kind of scheme of prior art, power network is inputted from port A, port U outputs, while input switch KS, switch KJ, then can cause short circuit.Therefore, embodiment of the present utility model compared with the existing, can improve non-contact voltage stabilizer Reliability of operation.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out in the case where not departing from principle of the present utility model and spirit a variety of changes, repaiies Change, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.

Claims (2)

1. a kind of non-contact voltage stabilizer of double winding commutation, including：Adjustable transformer (TB), compensator transformer (ZB), controllable silicon, Characterized in that, power network input is connected to the output U ends that compensator transformer circuit (ZB) is input to voltage-stablizer again through switching (KS), adjust Pressure transformer (TB) connects the voltage change (V3) and voltage change (V4) that two-way commutation winding is produced, and voltage-stablizer needs to rise ON switch (KS) produces voltage change (V3) during pressure, and voltage-stablizer needs ON switch (KJ) during decompression to produce voltage change (V4)。

2. the non-contact voltage stabilizer of double winding commutation according to claim 1, it is characterised in that the switch (KS, KJ) It is Double-circuit switch.