KR200483522Y1 - Power suppling circuit for welding apparatus - Google Patents

Abstract

According to an aspect of the present invention, there is provided a driving power supply circuit for a welding machine for selectively outputting an argon welding power source and a plasma cutting power source according to a user operation. The driving power source circuit includes a primary winding part 111 to which input power is applied, A first secondary winding part 112 for amplifying the input power in the form of a power source for converting the input power into an argon welding power source and a second secondary winding part for amplifying the applied input power in the form of a power source for converting the input power source into a plasma cutting power source 113); An output terminal portion 120 including a ground terminal 121 to which the earth cable 171 is connected and a torch terminal 122 to which the torch cable 172 is connected; A choke transformer 130 connected to an output side of the second secondary winding 113; A high voltage induction coil 140 connected between the output side of the choke transformer 130 and the torch terminal 122; A bypass circuit 150 connected between the output terminal of the choke transformer 130 and the earth terminal 121; And the second secondary winding 113 and the earth terminal 121 so that the output line of the plasma cutting power source is cut off by the opening operation so that only the argon welding power is outputted through the output terminal unit 120 And a switch unit (160) for conducting the output line of the plasma cutting power source by contact operation and outputting the plasma cutting power source combined with the argon welding power through the output terminal unit (120) Is provided.

Description

POWER SUPPLY CIRCUIT FOR WELDING APPARATUS FOR WELDER

The present invention relates to a driving power supply circuit for a welding machine, and more particularly, to a driving power supply circuit for a welding machine for outputting an argon welding power for an argon welding operation or a plasma cutting power for a plasma cutting operation Circuit.

FIG. 1 shows a driving power supply circuit for a welding machine for outputting an argon welding power source and a plasma cutting power source through a welding machine, respectively.

Referring to FIG. 1, a conventional driving power supply circuit for a welding machine includes a primary winding 11 to which input power is applied, a first secondary winding 12 to amplify the applied input power by an argon welding power source, A main transformer 10 constituted by a second secondary winding 13 for amplifying power by a plasma cutting power source is constituted by a circuit at the input end and a common ground terminal 21 to which an earth cable is connected and a torch cable for argon welding An argon torch terminal 22 to be connected and a plasma torch terminal 23 to which a torch cable for plasma cutting is connected are constructed.

The output side of the first secondary winding 12 is connected to the common ground terminal 21 and the argon torch terminal 22 via a circuit line and the circuit line connected to the argon torch terminal 22 is connected to the common ground terminal 21 and the argon torch terminal 22, And the high voltage induction coil 32 for argon is arranged to convert and amplify the amplified power into the form of an argon welding power source and the output side of the second secondary winding 13 is connected to the common ground terminal 21 and the plasma The choke transformer 33 for plasma and the high-voltage induction coil 34 for plasma are disposed in the circuit line at the plasma torch terminal 23 and the amplified power is supplied to the torch terminal 23 in the form of a plasma cutting power source And boosted it.

On the output terminals of the choke transformers 31 and 33 on each circuit line, an argon bypass circuit 35 and a plasma bypass circuit 36 for eliminating load noise are arranged in a circuit.

The circuit line between the output side of the first secondary winding 12 and the common ground terminal 21 and the circuit line between the output side of the second secondary winding 13 and the common ground terminal 21 are generated The first magnetic switch 41 and the second magnetic switch 42, which selectively open and close the contact by the magnetic field of the coil, are arranged in a circuit.

Therefore, when the first magnetic switch 41 is brought into contact, the circuit is turned on to output the argon welding power through the argon torch terminal 22. When the second magnetic switch 42 is brought into contact with the plasma torch terminal 23, Cutting power can be output, and the power output is cut off when the switch contacts are disconnected.

However, in the case of the conventional driving power supply circuit for a welding machine, the argon torch terminal 22 for the argon welding operation and the plasma torch terminal 23 for the plasma cutting operation are respectively divided and connected through the torch terminals 22 and 23 As described above, the choke transformers 31 and 33, the high-voltage induction coils 32 and 34, and the bypass circuits 35 and 36 must be provided for the respective circuit lines, respectively, by separately outputting the argon welding power source and the plasma cutting power source As a result, the number of parts is increased, manufacturing cost is increased, circuit design is complicated, and thus, there is a problem that a failure occurrence rate is increased.

When the first magnetic switch 41 and the second magnetic switch 42 are used as the switching means, when a voltage drop phenomenon occurs during the welding operation, the contact points of the magnetic switches 41 and 42 are disconnected, The power source is unstably output.

Korean Patent Registration No. 10-0855543 (2008.08.26), Power supply device of inverter welder using ESC.

The object of the present invention is to minimize the number of parts for power conversion and to simplify the circuit configuration, and to provide a welding power source for plasma welding or a plasma cutting operation And to provide a driving power supply circuit for a welding machine capable of selectively outputting a cutting power source.

According to an aspect of the present invention, there is provided a driving power supply circuit for a welding machine for selectively outputting an argon welding power source and a plasma cutting power source according to a user operation. The driving power source circuit includes a primary winding part 111 to which input power is applied, A first secondary winding part 112 for amplifying the input power in the form of a power source for converting the input power into an argon welding power source and a second secondary winding part for amplifying the applied input power in the form of a power source for converting the input power source into a plasma cutting power source 113); An output terminal portion 120 including a ground terminal 121 to which the earth cable 171 is connected and a torch terminal 122 to which the torch cable 172 is connected; A choke transformer 130 connected to an output side of the second secondary winding 113; A high voltage induction coil 140 connected between the output side of the choke transformer 130 and the torch terminal 122; A bypass circuit 150 connected between the output terminal of the choke transformer 130 and the earth terminal 121; And the second secondary winding 113 and the earth terminal 121 so that the output line of the plasma cutting power source is cut off by the opening operation so that only the argon welding power is outputted through the output terminal unit 120 And a switch unit (160) for conducting the output line of the plasma cutting power source by contact operation and outputting the plasma cutting power source combined with the argon welding power through the output terminal unit (120) Is provided.

According to another feature of the present invention, the (+) output terminal of the first secondary winding section 112 is connected to the contact point between one side of the switch section 160 and one side of the bypass circuit 150, And the second secondary winding 113 is connected to the contact point between the other side of the bypass circuit 150 and the one end of the high voltage induction coil 140. The positive terminal of the second secondary winding 113 is connected to the other end of the switch 160 And one end of the switch unit 160 is connected to the positive output terminal of the first secondary winding unit 112 and the other end of the bypass circuit 150. The positive output terminal of the first secondary winding unit 112 and the negative output terminal of the bypass circuit 150 are connected to the input terminal of the choke transformer 130, And the other end of the choke transformer 130 is connected to the (+) output terminal of the second secondary winding section 113. The choke transformer 130 has an input end connected to the (-) output terminal of the second secondary winding section 113 And the output terminal is connected to the contact point between the negative output terminal of the first secondary winding section 112 and the other terminal of the bypass circuit 150 and the input terminal of the high voltage induction coil 140 and is connected to the second secondary winding section 113 The amplified AC DC power supply. The bypass circuit 150 has one side connected to the contact point between one side of the switch unit 160 and the ground terminal 121 and the other side connected to the contact point between the negative side of the first secondary winding unit 112 and the (- The high voltage induction coil 140 has an input terminal connected to the output terminal of the choke transformer 130 and a bypass terminal connected to the output terminal of the choke transformer 130, Is connected to the contact between the other side of the circuit (150) and the (-) output terminal of the first secondary winding part (112) to filter the AC component included in the input power source .

According to another aspect of the present invention, the first secondary winding portion 112 has a winding ratio for amplifying an input power so as to output a power source having the same size as the predetermined argon welding power source, The winding unit 113 has a winding ratio for amplifying the input power so as to output a power having a magnitude obtained by subtracting the argon welding power from a preset plasma cutting power source.

According to another aspect of the present invention, the switch unit 160 is a manual operation switch mounted on the outside of the welding machine and operated by being opened and contacted by external pressurization.

As described above, according to the present invention, since the conventional power source for opening and closing the circuit line through which the argon welding power source is outputted through the argon torch terminal and the circuit line for outputting the plasma cutting power source through the plasma torch terminal, Instead of the supply method, the argon welding power source and the plasma cutting power source are outputted through one torch terminal 122 and the earth terminal 121, respectively, and a power supply for selecting and switching the driving power required through the switch unit 160 is selected The number of parts for power conversion can be minimized to simplify the circuit design, thereby reducing the manufacturing cost and the failure occurrence rate.

Further, by using the manual operation switch which is opened and contact-operated by external pressure by the switch unit 160, even if a voltage drop phenomenon occurs during the welding operation, the contact point is dropped and the driving power outputted becomes unstable .

1 is a circuit diagram showing a configuration of a conventional driving power supply circuit for a welding machine,
FIG. 2 is a schematic view showing the construction of a welder equipped with a drive power supply circuit for a welder according to a preferred embodiment of the present invention;
3 is a block diagram showing a functional configuration of a driving power supply circuit for a welding machine according to a preferred embodiment of the present invention;
4 is a circuit diagram showing a circuit configuration of a driving power supply circuit for a welding machine according to a preferred embodiment of the present invention;
5 is a circuit diagram for explaining the operation principle of a driving power supply circuit for a welding machine according to a preferred embodiment of the present invention.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The driving power supply circuit 100 for a welding machine according to the preferred embodiment of the present invention minimizes the number of parts for power conversion and simplifies the circuit configuration, and also provides a welding power supply for the argon welding operation or a plasma cutting operation 2 to 4, the main transformer 110, the output terminal 120, the single choke transformer 130, the single high-voltage induction coil 140, A single bypass circuit 150, and a switch unit 160. [0035]

3 and 4, the main transformer 110 includes a primary winding 111 to which input power is applied, and a secondary winding 111 to which the input power is applied. A first secondary winding 112 for amplifying the input power in the form of a power source for converting to an argon welding power source and a second secondary winding 112 for amplifying the applied input power in the form of a power source for converting the input power source into a plasma cutting power source, (113).

The winding portions 112 and 113 can be adjusted in accordance with the required level by adjusting the winding of the coil in comparison with the primary winding portion 111 and connected to the earth terminal 121 and the torch terminal 122 And outputs the amplified power through the circuit line.

The power amplified by the first secondary winding part 112 is always output and applied to the earth terminal 121 and the torch terminal 122 under the condition that the input power is applied and is supplied to the second secondary winding part 113, Is selectively applied to the output terminals 121 and 122 according to opening and closing operations of the switch unit 160. [

Accordingly, the first secondary winding 112 has a winding ratio for amplifying the input power applied to the primary winding 111 so as to output a power of the same magnitude as the preset argon welding power source, The secondary winding 113 has a winding ratio for amplifying the input power applied to the primary winding 111 so that the secondary winding 113 can output a power of a predetermined plasma cutting power source minus the argon welding power.

In addition, as shown in the drawing, a diode and a capacitor may be respectively connected to the output terminals of the respective winding portions 112 and 113 to prevent the power of the rear end from being reversed to the primary side.

4, the (+) output terminal of the first secondary winding section 112 is connected to the contact point between one side of the switch section 160 and one side of the bypass circuit 150, and the negative output terminal Is connected to the contact point between the other side of the bypass circuit 150 and the first power terminal of the high voltage induction coil 140 and the positive terminal of the second secondary winding part 113 is connected to the other side of the switch part 160 And the (-) output terminal is connected to the input terminal of the choke transformer 130.

The output terminal unit 120 is an output terminal for outputting the converted argon welding power source and plasma cutting power source to the outside and is mounted to one side of the console unit 170 constituting the body of the welding machine as shown in FIG. do.

The output terminal unit 120 includes an earth terminal 121 to which an earth cable 171 connected to an earth tongue 173 holding a base material 200 is connected and a torch cable 174 connected to an end of the earth terminal 121, And a torch terminal 122 to which the torch terminal 172 is connected.

The console unit 170 is connected to a power cable 175 for applying input power such as a commercial power supply to the circuit, a ground cable 176 for grounding the circuit, a gas cable 177 for supplying argon gas, And a display unit 178 for displaying the operating state of the welding machine according to the driving of the driving power supply circuit 100 for the welding machine and an operation unit 179 for inputting various setting items are mounted.

The single choke transformer 130 is a circuit configuration connected to the output side of the main transformer 110 to convert the AC power amplified by the main transformer 110 into the form of a DC power source, (Not shown).

4, the input terminal of the choke transformer 130 is connected to the (-) output terminal of the second secondary winding section 113, and the output terminal of the choke transformer 130 is connected to the (-) terminal of the first secondary winding section 112. [ And is connected to the output terminal, the other side of the bypass circuit 150 and the input terminal of the high-voltage induction coil 140, and converts the AC amplified by the second secondary winding section 113 into a DC power.

The single high voltage induction coil 140 filters the AC cutoff power source converted by the choke transformer 130 and the AC component included in the amplified power source applied from the (-) output terminal of the first secondary winding section 112 And is connected to the output side of the second secondary winding 113 as a circuit.

The high-voltage induction coil 140 operates so as to generate a start high voltage (for example, 8,000 to 10,000 V) required at the beginning of welding in addition to the function of filtering the AC component. do

4, the input terminal of the high voltage induction coil 140 is connected to the output terminal of the choke transformer 130 and the other terminal of the bypass circuit 150 and the (-) output terminal of the first secondary winding section 112, And filters the AC component included in the input power source.

The single bypass circuit 150 is a circuit configuration in which a circuit is connected between the output side of the choke transformer 130 and the earth terminal 121 to remove load noise. One side of the bypass circuit 150 is connected to one side of the switch portion 160 and the ground terminal 121 and the other end is connected to the contact point between the negative output terminal of the first secondary winding section 112 and the input terminal of the high voltage induction coil 140 to remove the load noise applied from the output terminal section 120 .

The switch unit 160 is a switching means for selecting a driving power output through the output terminal unit 120. The switch unit 160 is opened and contacts according to a user's operation and is connected to the second secondary winding unit 113 and the ground terminal 121 of the bypass circuit 150 and has one side connected to the positive output terminal of the first secondary winding 112 and one side of the bypass circuit 150 and the other side connected to the second secondary winding 113, (+) Output terminal.

5 (a), the output line of the plasma cutting power source is cut off by the opening operation so that only the argon welding power is output through the output terminal unit 120, and as shown in FIG. 5 (b) The output line of the plasma cutting power source is conducted by contact operation so that the plasma cutting power source combined with the argon welding power is output through the output terminal unit 120.

More specifically, since the output side circuit line of the first secondary winding portion 112 is connected to the ground terminal 121 and the torch terminal 122 through the switch portion 160, The argon welding power is output to the output terminal unit 120 through the high voltage induction coil 140 under the condition that the input power is applied regardless of the opening /

On the other hand, when the switch unit 160 is disposed on the output side circuit line of the second secondary winding unit 113 and the switch unit 160 is in contact with the circuit, the second secondary winding unit 113 is turned on, The power is amplified by the second transformer 130 and the high voltage induction coil 140 and is output to the output terminal unit 120. When the switch unit 160 is opened, ) Is not output to the output terminal unit 120. [0064]

Since the set argon welding power is always applied to the output terminal unit 120 irrespective of the open / closed state of the switch unit 160, when the switch unit 160 is in contact with the first secondary winding unit 112 And the plasma cutting power source amplified by the second secondary winding 113 are combined, is applied to the output terminal unit 120. In this case,

Therefore, it is preferable that the second secondary winding 113 is set so that a power supply value obtained by subtracting the argon welding power supply value from the power supply value required for the plasma cutting operation is applied to the output terminal unit 120.

Meanwhile, the switch unit 160 is mounted on the outside of the welding machine and uses a manual operation switch such as a toggle switch that is opened and contacted by external pressure, so that even if a voltage drop phenomenon occurs during the welding operation, The phenomenon that the driving power becomes unstable can be effectively prevented.

Although it is illustrated in the drawing that the switch unit 160 is mounted to be exposed to one side of the console unit 170 of the welder, the present invention is not limited thereto. So that the switch unit 160 can be easily operated at a working position without having to move to a place where the console unit 170 is located.

By the respective constitutions and functions of the welding power supply circuit 100 for welding according to the preferred embodiment of the present invention as described above, the plasma cutting through the circuit line and the plasma torch terminal through which the argon welding power is outputted through the argon torch terminal The argon welding power source and the plasma cutting power source output through the single torch terminal 122 instead of the conventional power source method of opening and closing each of the circuit lines from which power is output and outputting the respective driving power sources, ), It is possible to minimize the number of parts for power conversion, thereby simplifying the circuit design and reducing the manufacturing cost and the failure occurrence rate have.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept as defined by the appended claims. It will be clear to those who have knowledge.

100 ... drive power supply circuit for welder 110 ... main transformer
111 ... primary winding section 112 ... first secondary winding section
113 ... second secondary winding section 120 ... output terminal section
121 ... Earth terminal 122 ... Torch terminal
130 ... choke transformer 140 ... high-pressure induction coil
150 ... bypass circuit 160 ... conversion switch

Claims (4)

A driving power supply circuit for a welding machine for selectively outputting an argon welding power source and a plasma cutting power source according to a user operation,
A first secondary winding part 111 to which input power is applied, a first secondary winding part 112 that amplifies the input power in the form of a power source for converting the applied input power into an argon welding power source, A main transformer (110) including a second secondary winding (113) for amplifying in the form of a power source for converting into a power source;
An output terminal portion 120 including a ground terminal 121 to which the earth cable 171 is connected and a torch terminal 122 to which the torch cable 172 is connected;
A choke transformer 130 connected to an output side of the second secondary winding 113;
A high voltage induction coil 140 connected between the output side of the choke transformer 130 and the torch terminal 122;
A bypass circuit 150 connected between the output terminal of the choke transformer 130 and the earth terminal 121; And
A circuit is connected between the second secondary winding part 113 and the earth terminal 121 and the output line of the plasma cutting power source is cut off by the opening operation so that only the argon welding power is outputted through the output terminal part 120 And a switch unit (160) for conducting the output line of the plasma cutting power source by contact operation and outputting the plasma cutting power source combined with the argon welding power through the output terminal unit (120).
The method according to claim 1,
(-) output terminal of the first secondary winding section 112 is connected to the contact point between one side of the switch section 160 and one side of the bypass circuit 150 and the (-) output terminal is connected to the other side of the bypass circuit 150 And the high voltage induction coil 140,
The (+) output terminal of the second secondary winding section 113 is connected to the other end of the switch section 160, the (-) output terminal thereof is connected to the input terminal of the choke transformer 130,
One end of the switch unit 160 is connected to the positive output terminal of the first secondary winding unit 112 and one end of the bypass circuit 150 and the other end of the switch unit 160 is connected to the second secondary winding unit 113 (+) Output terminal,
The choke transformer 130 has an input terminal connected to the negative output terminal of the second secondary winding section 113 and an output terminal connected to the negative output terminal of the first secondary winding section 112, And is connected to the contact point between the other end and the input terminal of the high voltage induction coil 140 to convert the AC amplified by the second secondary winding section 113 into the form of a DC power source,
One end of the bypass circuit 150 is connected to one end of the switch unit 160 and the ground terminal 121 and the other end of the bypass circuit 150 is connected to the negative output terminal of the first secondary winding unit 112 and the high- And removes load noise applied from the output terminal unit 120,
The input terminal of the high voltage induction coil 140 is connected to the output terminal of the choke transformer 130 and the other terminal of the bypass circuit 150 and the negative terminal of the first secondary winding section 112, And filtering the included AC components.
3. The method according to claim 1 or 2,
The first secondary winding unit 112 has a winding ratio for amplifying the input power so as to output a power source having the same size as the predetermined argon welding power source,
Wherein the second secondary winding (113) has a winding ratio for amplifying an input power so as to output a power having a magnitude obtained by subtracting the argon welding power from a predetermined plasma cutting power source .
The method of claim 3,
The switch unit 160,
And a manual operation switch which is mounted on the outside of the welding machine and is opened and contacted by external pressure.

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