KR200358227Y1 - Power supply device of electrical welding machine - Google Patents

Abstract

The present invention relates to an inverter welding apparatus for an electric welding machine using a high frequency power supply, and to an inverter welding apparatus for an electric welding machine that can easily convert an input circuit regardless of any commercial input power source. Inverter power supply for electric welding machine is a first and second full-wave rectifier circuit for full-wave rectifying and converting the input power into direct current, the first and second smoothing capacitor unit for smoothing the ripple voltage included in the direct current, the first and second Between the first and second high frequency conversion circuits, the first and second full-wave rectifier circuits, and one terminal of the first and second smoothing condenser sections, connected in parallel to both ends of the second smoothing condenser section to generate a high frequency output voltage. It includes a power conversion switch to control the connection of. Accordingly, the input circuit can be easily converted in accordance with the change of the input voltage while reducing the current load of the first and second full-wave rectifier circuits.

Description

Inverter power supply for electric welding machine {POWER SUPPLY DEVICE OF ELECTRICAL WELDING MACHINE}

The present invention relates to an inverter power supply for an electric welding machine using a high-frequency power supply using a switching transistor, and more particularly, by changing the connection between the terminals in the power conversion switch, the conversion of the input circuit is appropriately changed according to the input power. The invention relates to an inverter power supply for an electric welder.

The electric welding machine using the conventional commercial power supply (60 Hz) was easy to switch 220 V or 440 V by connecting the number of turns of the transformer primary side in series or parallel. In contrast, an electric welding machine using a high frequency converter operates by rectifying commercial power to high frequency power and shaping or rectifying a square wave, and switching 220V or 440V in the same way as an electric welding machine using commercial power. It is difficult to do However, in general, since the input voltage used for the electric welding machine is dedicated to 220V, 380V, 440V, etc., there was a need to change the type of the welding machine according to the input voltage.

Korean Utility Model No. 20-0152899 discloses an "inverter power supply for an electric welding machine." No. 20-0152899 is connected in parallel by changing the connection between terminals through the power conversion switch to solve the trouble of changing the welding machine type according to the input voltage and to design the circuit and the parts with the low voltage circuit. The smoothing capacitor and the high frequency conversion circuit and the other smoothing capacitor and the other high frequency conversion circuit connected in parallel are connected in series or parallel so that the input circuit can be easily changed in accordance with the change of the input voltage.

However, the inverter power supply for the electric welding machine disclosed in No. 20-0152899 has a full-wave rectifier circuit because when the parallel connected components of the smoothing capacitor and the high frequency conversion circuit are connected in parallel, the parallel connected components of the smoothing capacitor and the high frequency conversion circuit flow current. There was a big problem in the current burden of the diode constituting. This means that when the paralleled components of the smoothing capacitor and the high frequency conversion circuit are connected in parallel, the current flowing through the full-wave rectifier circuit is larger than that of the serial connection, so that the full-wave rectifier circuit must be composed of a diode having a large current capacity. The height became a factor.

An object of the present invention for solving the above problems is to provide an inverter power device for an electric welding machine that can easily change the input circuit according to the input power by changing the terminal connection of the power conversion switch, without the current burden of the full-wave rectifier circuit. It is.

1 is a circuit diagram of a first preferred embodiment of an inverter power supply for an electric welder according to the present invention.

FIG. 2 is a circuit diagram when an inverter power supply device for an electric welder shown in FIG. 1 uses 220V input power. FIG.

3 is a circuit diagram when the inverter power supply for the electric welder shown in FIG. 1 uses 440V input power.

Figure 4a is a terminal connection diagram when the power conversion switch shown in Figure 1 uses a 220V input power.

Figure 4b is a terminal connection diagram when the power conversion switch shown in Figure 1 uses a 440V input power.

Explanation of symbols on the main parts of the drawings

100: input power supply 110: first full-wave rectifier circuit

120: second full wave rectifier circuit 130: first smoothing capacitor

140: second smoothing capacitor unit 150: first high frequency conversion circuit

160: second high frequency conversion circuit 170: power conversion switch

The present invention for achieving the above object, the first and second full-wave rectifier circuit for full-wave rectifying the input power to convert to DC, the first and second smoothing capacitor unit for smoothing the ripple voltage included in the direct current, First and second high frequency conversion circuits, a first full wave rectifying circuit, a second full wave rectifying circuit, and a first smoothing condenser unit connected in parallel to both ends of the first and second smoothing condenser sections to generate a high frequency output voltage, and It includes a power conversion switch for controlling the connection between one terminal of each of the first smoothing capacitor unit.

According to the inverter power supply device for the electric welding machine, regardless of the connection state of the terminals in the power conversion switch, a substantially constant level of current flows in the full-wave rectifier circuit, reducing the current load on the full-wave rectifier circuit, and easily input circuit according to the input power source. Can be converted.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the present invention.

1 is a circuit diagram of a first preferred embodiment of an inverter power supply for an electric welder according to the present invention. 1, the inverter power supply device for an electric welder of the present invention is the input power supply 100, the first full-wave rectifier circuit 110, the second full-wave rectifier circuit 120, the first smoothing capacitor 130, The second smoothing capacitor unit 140 includes a first high frequency conversion circuit 150, a second high frequency conversion circuit 160, and a power conversion switch 170.

As shown in FIG. 1, each of the first full-wave rectifying circuit 110 and the second full-wave rectifying circuit 120 includes six diodes. Input power is connected between two diodes connected in series. The first and second full wave rectifier circuits 110 and 120 convert an AC voltage applied from an input power source into direct current. The first and second smoothing capacitors 130 and 140 smooth the ripple voltages included in the rectified DCs, respectively, when the smoothing capacitor and the resistor are connected in parallel. In this case, the resistance provides a discharge path to the smoothing capacitor. The first high frequency conversion circuit 150 is connected in parallel to both ends of the first smoothing condenser unit 130, and the second high frequency conversion circuit 160 is connected in parallel to both ends of the second smoothing condenser unit 140. One terminal of the first full wave rectifying circuit 110 is connected to one terminal of the first smoothing condenser unit 130, and one terminal of the second full wave rectifying circuit 120 is connected to the second smoothing condenser unit 140. It is connected to one terminal. The other terminal of the first full-wave rectifying circuit 110 and the other terminal of the first smoothing capacitor 130 which are not connected to each other are connected to the power conversion switch 170, respectively. Similarly, the other terminal of the second full-wave rectifying circuit 120 and the other terminal of the second smoothing capacitor 140 that are not connected to each other are connected to the power conversion switch 170, respectively. In the first and second high frequency conversion circuits 150 and 160, a pair of transistors are connected in a totem pole type, and a pair of capacitors connected in series to the pair of transistors are connected in parallel, and between two transistors and two transistors. Coils are connected between the capacitors. The first and second high frequency conversion circuits 150 and 160 respectively turn on a pair of transistors by a control signal (not shown) applied to the base of the pair of transistors so that a high frequency output voltage is applied to the coil. . The power conversion switch 170 is connected to one terminal of the first and second full-wave rectifier circuit and the first and second smoothing condenser part to adjust the connection therebetween.

2 and 3 are circuit diagrams of the case where the inverter power supply device for an electric welding machine according to the present invention uses a 220V input power and a 440V input power, respectively. Hereinafter, the operation of the power conversion switch 170 of the inverter power supply device for an electric welding machine according to the present invention shown in FIG. 1 with reference to FIGS.

First, when the input power is a relatively low voltage, such as 220V, the power conversion switch of the inverter power supply for an electric welder according to the present invention connects the terminals so that the inverter power supply for the electric welder becomes a circuit as shown in FIG. do. Referring to FIG. 2, the inverter power supply device for an electric welding machine according to the present invention in the case of using a 220 V input power source includes a first full-wave rectifier circuit 110, a first smoothing capacitor unit 130, and a first high frequency conversion circuit ( The second power supply unit 202 connected to the first power supply unit 201 and the second full-wave rectifier circuit 120, the second smoothing condenser unit 140, and the second high frequency conversion circuit 160 connected in parallel to each other are connected to each other. It uses the same input power supply 100 and operates as an independent circuit. In this case, since the first and second full-wave rectifier circuits 110 and 120 supply current to the first and second power supply units 201 and 202, the current burden is small.

Next, when the input power is a relatively high voltage, such as 440V or 380V, the power conversion switch of the inverter power supply device for an electric welder according to the present invention has a terminal such that the inverter power supply device for the electric welder is a circuit as shown in FIG. Connect them. Referring to FIG. 3, the inverter power supply device for an electric welding machine according to the present invention in the case of using a 440V or 380V input power is configured and connected to the first smoothing capacitor unit 130 and the first high frequency conversion circuit 150 in parallel. 2 The parallel condenser unit 140 and the second high frequency conversion circuit 160 are connected in series, and only three diodes are used in the first and second full-wave rectifier circuits, respectively, to provide full-wave rectification of AC power. To convert to DC.

As a result, the power conversion switch 170 shown in FIG. 1 may be divided into independent first and second power supply units for the electric welding machine inverter power device according to the present invention, or the first smoothing condenser unit and the first smoothing unit according to the input power. The configuration in which the high frequency conversion circuit is connected in parallel and the configuration in which the second smoothing capacitor unit and the second high frequency conversion circuit are connected in parallel are connected in series.

4A and 4B are terminal connection diagrams for the case where 220V and 440V input powers of the power conversion switch shown in FIG. 1 are used, respectively. 4A and 4B, when a 220V input power is used, a and b terminals are connected, and c and d terminals are connected. In this case, the circuit of one embodiment of the present invention shown in FIG. 1 becomes the circuit shown in FIG. 2. Also, if 440V input power is used, connect b terminal and d terminal. In this case, the circuit of one embodiment of the present invention shown in FIG. 1 becomes the circuit shown in FIG. 3. Thus, the circuit configuration shown in Fig. 2 or 3 can be easily made by the terminal connection.

As described through the above embodiment, the inverter power supply device for an electric welding machine according to the present invention operates when the input power source is 220V so that the first power supply unit and the second power supply unit receive the same input power supply and operate as independent circuits. At 440V, the configuration in which the first smoothing condenser portion and the first high frequency conversion circuit are connected in parallel and the configuration in which the second smoothing condenser portion and the second high frequency conversion circuit are connected in parallel are connected in series. However, the technical idea of the present invention is not limited to the case where the input power source is 220V or 440V, and various input power sources such as 380V input power instead of 440V are used within the scope of the technical idea of the present invention.

Although described with reference to the examples, those skilled in the art can understand that the present invention can be variously modified and changed without departing from the spirit and scope of the invention described in the claims below. There will be.

According to the present invention as described above, according to the input power source, the first power source unit and the second power source unit operates as an independent circuit, or the first smoothing capacitor unit and the first high frequency conversion circuit are connected in parallel and the second smoothing capacitor unit And a circuit in which the second high frequency conversion circuit is connected in parallel to each other in series, thereby easily changing the circuit.

In addition, since the voltages applied to the first and second high frequency conversion circuits can be maintained at a substantially constant level, it is easy to design circuit components.

In addition, the first smoothing capacitor unit and the first high frequency conversion circuit are connected in parallel and the second smooth condenser unit and the second high frequency conversion circuit are connected in parallel so that the first and second full wave rectifier circuits are not connected in parallel. Can significantly reduce the current load. Therefore, the full-wave rectifier circuit can be designed as a low current diode, thereby reducing the production cost.

Claims (3)

First and second full-wave rectifying circuits for full-wave rectifying and converting input power into direct current; First and second smoothing capacitor units for smoothing the ripple voltage included in the direct current; First and second high frequency conversion circuits connected in parallel to both ends of the first and second smoothing capacitors to generate a high frequency output voltage; And When the input power source is a first input power source, the first smoothing capacitor unit and the first high frequency conversion circuit connected in parallel with the second smoothing capacitor unit and the second high frequency conversion circuit connected in parallel are connected in series. When an input power source is a second input power source, both terminals of the first smoothing capacitor unit and the first high frequency conversion circuit connected in parallel and the second smoothing capacitor unit and the second high frequency conversion circuit connected in parallel are connected to the first power supply. And a power conversion switch configured to be connected to both terminals of the full-wave rectifying circuit and the second full-wave rectifying circuit, respectively. The inverter power supply of claim 1, wherein the first input power is 440V and the second input power is 220V. 2. The inverter power supply device for an electric welder according to claim 1, wherein the first input power is 380V and the second input power is 220V.