KR810001578Y1 - Core having a air gap - Google Patents

Abstract

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Description

Core with Air Gap

1 is a core and circuit diagram of a conventional manner.

2 is a single core perspective view of the present invention.

3 is a front view of winding each winding to a single core of the statue.

4 is a circuit diagram of a statue.

5A is a diagram showing the direction of a magnet and a current when a maximum voltage is applied to the primary winding.

5B is a diagram showing a magnet and a current direction when the input voltage and the output voltage are the same.

5c is a diagram showing the direction of a magnet and a current when a minimum voltage is applied to the primary winding.

The present invention is to adjust the voltage and current characteristics of the output circuit using a conventional main transformer (MAIN TRANS), saturable reactor, unsaturated reactor, respectively, the main transformer, saturable reactor and unsaturated reactor as shown in FIG. Instead of using them separately, install control windings and step-down windings in the primary circuit including the boost windings and the magnetic circuit forming the air gap to obtain high leakage reactance, as shown in FIGS. 2, 3, and 4 The present invention relates to a core having an air gap in which iron cores are formed.

In the related art, in order to adjust the voltage and current characteristics of an output circuit, as shown in FIG. 1, independent main transformers, saturable reactors, and unsaturated reactors are used. The weight was also very heavy, inconvenient to manufacture and use, and uneconomical.

The present invention removes these conventional defects, which will be described below with reference to the accompanying drawings.

As shown in FIG. 1, independent saturable reactors (SR), unsaturated reactors (USR), main transformers (MAIN TR), resonant reactors (RR), etc. are separately used to measure the voltage and current characteristics of the output side. Because of the adjustment, the material is large and large, and its weight is very heavy, which is inconvenient and uneconomical to manufacture and use.

However, according to the present invention, as shown in FIGS. 2 to 4, the air gap 2 is formed in the single iron core 1 to obtain a high leakage reactance, but the magnetic circuit core portion 3 of the iron core 1 is obtained. The winding winding (7) and the primary winding (8) are included, and the magnetic circuit core portion (4) is the winding winding (9) wound in the opposite direction to the feeding winding (7), and the magnetic circuit core portion (5 6, the control windings 10 (10 ') are wound and connected as shown in FIG.

In the figure, symbol 11 is a main transformer, 12 is a filter winding, and 14 is a filter capacitor.

a, b, c, d, e, and f are respective connection terminals.

In FIG. 3, since the detection and amplification circuits are publicly known as shown in FIG. 1, they are shown in a block circuit diagram. In FIG. 3, the dotted line 14 is a primary magnetic circuit, and the remaining parts and 1 The secondary magnetic circuit 15 is configured by using a part 16 of the secondary magnetic circuit in common.

According to the present invention configured as described in FIG. The detected voltage is applied to the control winding 10 (10 ') through the terminal (e) (f) to change the control current of the control winding (10) (10') and eventually the secondary magnetic circuit (15). It will change the magneto resistance.

Therefore, the induced voltage of the step-down winding 9 changes due to the change in the magneto-resistance of the secondary magnetic circuit 15, and as a result, the voltage required for the output side can be obtained.

However, the boost winding 7, the primary winding 8, and the down winding 9 are configured in the form of a single winding transformer, and the boost winding 7 gives a magnetic force to the iron core 1 to generate a main magnetic flux. The excitation (input) windings, the boost winding 7 and the step-down winding 9 are boost and winding windings determined by the fluctuation range of the input voltage, and the electric operation state is divided into three stages. When the maximum voltage V ₁ is applied to the primary winding 8, the direction of the magnetic flux and the current becomes as shown in FIG. 5A.

At this time, the induced voltage of the step-up winding 9, which is once fed (V _I + V _U ) by the voltage proportional to the number of turns of the step-up winding 7 and is wound in the opposite direction to the primary winding 8 and the boost-up winding 7, This step-down voltage V _D lowers the voltage stepped up by the windings 7 and 8 to the reference voltage.

Therefore, the output voltage V _O becomes V _I + V _U -V _D to satisfy the set reference voltage.

5B shows the magnetic flux and the current direction when the input voltage and the output voltage are the same. In this case, the voltage is boosted by the boost winding 7 as described above, and then stepped down by the induced voltage of the boost winding 9. Maintain constant voltage.

That is, V _U -V _D = 0.

5c shows the direction of the magnetic flux and the current when the input voltage drops to the minimum, and at this time, the set voltage is satisfied only by the boosted voltage by the primary winding 8 and the boosted winding 7, There is no induced voltage of the winding 9.

That is, V ₀ = V ₁ + V _U.

That is, by installing air gaps 2 and 2 in the core 1, a high leakage reactance is induced, so that the magnetic flux of the secondary magnetic circuit 15 does not affect the primary magnetic circuit 14, and vice versa. Each winding as shown in FIGS. 3 and 4 in a single core 1 with air gaps 2 and 2 by not affecting the secondary magnetic circuit 15 by the magnetic flux of the primary magnetic circuit 14. By winding the conventional saturable reactor (SR), unsaturated reactor (USR), the main transformer (MAIN TR) can perform three functions.

The filter coil 12 and the filter capacitor 13 are filters for smoothing distortion generated in the output waveform.

If the primary winding 8 receives a voltage lower than the reference value, the voltage is boosted by the boost winding 7. However, if the primary winding 8 receives a high voltage, the boost winding 7 further boosts the voltage. Since the voltage is reduced by), the voltage on the input side is always made constant. As described above, the present invention installs air gaps 2 and 2 in the core 1 so that each winding is wound as one core 1 as shown in FIG. It can act as a reactor (USR) and main transformer (MAIN TR), thus saving material, minimizing its capacity, and significantly reducing weight.

Claims (1)

The primary magnetic circuit 14 of the primary winding and the boost winding and the secondary magnetic circuit 15 of the step-up winding and the control winding are formed as a single core 1, and an air gap 2 and 2 are formed in the single core 1. To form an air gap with high leakage reactance.