KR910004079Y1 - Power supply for motor - Google Patents

Abstract

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Description

Constant power supply of the motor

1 is a detailed circuit diagram showing one embodiment of a constant power supply of a motor according to the present invention.

* Explanation of symbols for main parts of the drawings

1: rectifier price 2: overvoltage semiconductor switching element

Ry: Relay D _1- D ₄ : Diode

R ₁ -R ₃ : Resistor DIAC: Diaak

M: Motor K ₁ , K ₂ : Relay contact terminal

TRIAC: Triac

The present invention relates to a constant power supply of a motor, and more particularly to a constant power supply of a motor that combines two input power sources of different nominal voltage.

Conventional motors are designed to be used for input power sources with one nominal power supply. In the case of small motors, the rated voltage is usually 100 V. When the rated voltage of 100 V is used, the rated voltage is somewhat changed. Even if it is possible to control the phase of the volume and the input voltage to supply a certain power to the motor, but if the nominal voltage of the input power is different, that is, if it is largely changed to 220V, only the phase of the volume or the input voltage Due to the limitations, expensive power transformers were installed and used as switching switches to meet the rated voltage. Therefore, it is economically burdensome to use expensive power transformers, and power loss in power transformers cannot be ignored, and the user checks whether the switching switch is switched to match the rated voltage of the motor. In some cases, it is inconvenient to do it, and sometimes, when the power is applied when the changeover switch is incorrectly connected due to a mistake, the motor may be overwhelmed or even the motor is burned out due to the overvoltage.

Therefore, the present invention is to solve this problem in the related art, and provides a constant power supply that is supplied by controlling so that the input power of the motor is constantly maintained without a separate power transformer even when the nominal voltage of the input power is changed. It is aimed.

In order to achieve this object, the constant power supply of the motor according to the present invention is connected to turn on a triac connected to the input side of the motor by forming a trigger circuit with a volume, a condenser and a diac (DIAC). In the electric power control apparatus of a motor which supplies a constant electric power by controlling the phase of the input power supplied to the motor, the rectifier and the overvoltage semiconductor switching element are connected to the input power side, and a relay is connected to the output side of the rectifier, One end of the parallel circuit formed of two resistors having different values is connected to the volume, and the other end is connected to the normally closed contact terminal and the upper contact terminal of the relay, respectively, to form the parallel circuit according to the change in the nominal voltage of the input power. One of the resistors is switched so that it is connected to the volume, so that constant power is always supplied regardless of the change in the nominal voltage And it is characterized.

According to the constant power supply of the motor of the present invention, when the nominal voltage is low, the overvoltage semiconductor switching element is not conducting and the relay cannot be driven, so that the resistance of the low resistance value connected to the normally closed contact terminal of the relay The time constant of the time constant circuit, which is connected in series and formed by this resistor and the volume tongue resistance, and the condenser, becomes long, so that the time until the break-over voltage of the diac becomes short is short, so the triac turn-on time is high, but the nominal voltage is high. In this case, since the overvoltage semiconductor switching element is turned on and the relay is driven, the resistance having the high resistance value of the parallel circuit is connected to the volume until the time constant of the above-described time constant circuit becomes long and reaches the breakover voltage of the diak. The longer the time, the slower the triac turn-on time. Therefore, if the resistance value is appropriately set, the phase of the input power source is controlled so that the power input to the motor is always constant regardless of the change in the nominal voltage.

Hereinafter, the present invention will be described in detail with reference to the drawings showing one embodiment of the motor.

In the constant power supply of the motor according to the present invention, as shown in FIG. 1, the triac triac is connected to the motor M, and the volume Vo1 and the condenser are connected to the gate of the triac triac. A motor power control device configured to control an input power to a motor M by connecting a trigger circuit formed of a C2 and a diac (DIAC), wherein four diodes D ₁ -are provided at an input side of the motor M. FIG. A bridge rectifier 1 formed of a D ₄ ) and a bidirectional zener diode VRD, which is an overvoltage semiconductor switching element 2, are connected, and a relay Ry is connected to the output side of the rectifier 1 via a resistor R ₁ . and a normally closed contact terminal (K ₁₎ and the normally open contact terminal (K _2), the resistance (R ₂₎ and a resistor (R ₃₎ a connection, a resistor (R ₂₎ and a resistor (R ₃₎ sikidoe of a relay (Ry) Parallel connection is made to be connected to one side of the volume (Vo1).

The resistance values of the resistors R ₂ and R ₃ are connected in series with the volume Vo 1 to turn on the triac so that a constant power is supplied to the motor M regardless of the change in the nominal voltage. Do it.

Other reference numeral C ₁ denotes a smoothing capacitor, SW ₁ denotes a power switch, F denotes a fuse, and AC denotes an AC power source.

On the other hand, in the present embodiment, the overvoltage semiconductor switching element 2 uses a bidirectional zener diode (VRD), but the present invention is not limited thereto, and it is sufficient if the overvoltage switching element 2 is turned on when a predetermined set voltage is reached. Terminal thyristor (SSS).

When the parallel circuit is composed of the resistor R ₂ and the resistor R ₃ , the resistor R having a small resistance value is replaced with a conductor having a resistance value of almost zero, and the resistance value of the remaining resistor R is set. Needless to say, the resistance R can be configured to be connected in parallel with the conductive wire. The resistance value of the resistor R can be configured to include a predetermined value from zero.

According to the present invention configured as described above, when the nominal voltage is low, for example, 100V, the bidirectional zener diode VRD is not conductive, so that the output of the rectifier 1 is not generated and the relay Ry is not driven. As a result, the resistor R ₂ connected to the normally closed contact terminal K ₁ is connected in series with the volume Vo 1 to be connected to the capacitor C ₂ , and the resistor R ₂ and the volume Vo 1 are adjusted. A time constant circuit is formed by the value and the capacitor C ₂ , and when the voltage due to the charging of the capacitor C ₂ of the time constant circuit reaches the voltage required to conduct the DIAC, DIAC) is turned on, so that the triac TRIAC is turned on to supply power to the motor M. FIG. However, since the resistance value of the resistor R ₂ is set smaller than the resistance value of the resistor R ₃ , the diaak DIAC is charged by charging the capacitor C ₂ through the resistor R ₂ and the volume Vo ₁ . The breakover voltage required to turn on will be generated faster.

On the other hand, in the case of an input power source having a high nominal voltage, for example, 220 V, the bidirectional zener diode VRD is conducted so that the current rectified in the rectifier 1 drives the relay Ry, thereby providing an upper contact terminal ( K ₂ ) is connected so that the resistor R ₃ is connected in series with the volume Vo1. Therefore, in the time constant circuit formed by the resistor R ₃ and the volume Vo1 and the capacitor C ₂ , the die described above is charged by the capacitor C ₂ charging due to the resistor R ₃ having a large resistance value. The time required to reach the breakover voltage required to conduct the DIAC becomes long, and as a result, the triac turns on so late that the power input to the motor M by the adjustment of the conduction angle is nominal voltage. It is controlled to remain constant regardless of the fluctuation of.

As described above, the constant power supply of the motor according to the present invention is a motor of two input power sources having different nominal voltages, and when the nominal voltage is changed, it detects this and adjusts the conduction angle of the power input to the motor to adjust the nominal voltage. Since constant power is supplied regardless of fluctuations, there is no need to install a separate expensive power transformer. Furthermore, the motor burnout is prevented due to incorrect connection of the power supply, and the switching state of the switching switch is checked whenever the power is connected to the motor. In addition, it can be combined with the static power control device commonly used in the input power supply of a single nominal voltage as described above, so that a constant power is generated regardless of the fluctuation of the nominal voltage or the voltage fluctuation within the same nominal voltage. It can be supplied in such a great effect.

Claims (1)

Volume (Vo1), capacitor (C ₃₎ and the die Ill (DIAC) the phase of the input power source connected to turn on the triac (TRIAC) connected to the input side of the motor (M) by, and which form a trigger circuit with In a known motor power control device for supplying a constant power to a motor by controlling the voltage, the rectifier 1 and the overvoltage semiconductor switching element 2 are connected to an input power supply side, and a relay is connected to an output side of the rectifier 1. Ry is connected, and one end of a parallel circuit formed of two resistors R ₂ and R ₃ having different resistance values is connected to the volume Vo 1, and the other end thereof is a normally closed contact terminal K ₁ of the relay Ry. ) And one of the resistors forming the parallel circuit in accordance with the change in the nominal voltage of the input power supply by connecting to the upper contact terminal (K ₂ ), respectively, so as to be connected to the volume (Vo1), regardless of the change in the nominal voltage. Constant power is always supplied to the motor Constant power supply to the motor.