JPH11179551A - Dc power unit for equipment using plasma arc - Google Patents

Abstract

PROBLEM TO BE SOLVED: To eliminate the need for providing a power line for external equipment that is used only for a short time and to stop and supply of the compressed gas of a compressor if no built-in compressor is used. SOLUTION: A housing 2 is provided with a DC power unit 4 which converts an AC voltage through the AC input terminals 12a, 12b of the housing 2 into a DC voltage and which supplies it through DC output terminals 10a, 10b to a torch 6 and a workpiece 8; with AC output terminals 14a, 14b which supplies a commercial AC voltage to an electric drill 13; and also with a changeover switch 16 which supplies the AC voltage through the input terminals 12a, 12b to the AC output terminals 14a, 14b and the power unit 4. The housing 2 is further equipped with a compressed gas output terminal 26 that supplies compressed air between the torch 6 and the workpiece 8, and with a compressed gas input terminal 22 that inputs the compressed air of an external compressor 24 outside the housing 2. Still further, the housing 2 is provided with a switching valve 20 supplying, from the output terminal 26 to the torch 6, either the compressed air of the input terminal 22 or that of the compressor 18 inside the housing 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a DC power supply for an apparatus utilizing a plasma arc, such as a plasma arc welding machine or a plasma arc cutting machine, and more particularly to a built-in compressed gas source for generating a plasma arc. About what you do.

[0002]

2. Description of the Related Art Generally, a DC power supply such as a plasma arc cutting machine converts a commercial AC voltage into a DC voltage by rectifying and smoothing the AC voltage, and converts the DC voltage into a high frequency voltage of, for example, 20 to 100 kHz by an inverter. Is transformed, and the transformed high-frequency voltage is rectified again,
It was smoothed and fed a load, for example, between the torch and the workpiece.

[0003] By using the inverter in this way, a large transformer and a reactor can be reduced in size, and the power supply device can be reduced in size. As a result, a compressor used for generating a plasma arc can be housed in the housing of the power supply device.

[0004]

By the way, conventionally,
When drilling a steel plate using a plasma arc,
First, a hole is formed in a required portion by an electric drill, and a plasma arc is generated from the hole as a base point to perform cutting. In order to use this electric drill,
It is common to use a commercial AC voltage.

[0005] Therefore, in addition to the DC power supply, a separate power supply line must be provided for an external device such as an electric drill that uses a shorter time than the use time of the DC power supply.

[0006] When a workpiece is cut using a plasma arc, a plurality of plasma arc cutting machines may be used. In this case, since the amount of the compressed air to be used is large, the compressed air is distributed from one large compressor to each torch via each DC power supply device even in the case of a DC power supply device with a built-in compressor.

Therefore, the operation of the built-in compressor becomes unnecessary, and when the built-in compressor is operated, the loss is rather increased.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a DC power supply for a plasma arc utilizing device which does not require a power supply line for an external device which is used only for a short time. Another object of the present invention is to provide a DC power supply device for a plasma arc utilizing device that can stop the supply of a compressed gas from the compressed gas source when a compressed gas source such as a built-in compressor is not used. And

[0009]

According to a first aspect of the present invention, there is provided a housing, and an AC input terminal provided in the housing for receiving a commercial AC voltage. A DC power supply unit provided in the housing, for converting a commercial AC voltage from the AC input terminal into a DC voltage, and a DC power supply unit provided in the housing for applying the DC voltage between a torch and a workpiece. A DC output terminal, a compressed gas source provided in the housing, for generating a plasma arc between the torch and the workpiece, and a commercial gas voltage provided in the housing to supply external AC voltage to an external device. An AC output terminal for providing a changeover switch provided in the housing and supplying a commercial AC voltage from the AC input terminal to a selected one of the DC power supply unit and the AC output terminal, Have It is.

According to the first aspect of the present invention, the commercial AC voltage supplied to the AC input terminal can be supplied to the DC power supply unit by switching a changeover switch, or can be supplied via the AC output terminal. It can also be supplied to external equipment. Therefore, for example, when using an external device such as an electric drill, the external device may be connected to the AC output terminal, and the changeover switch may be switched to the AC output terminal side. When using a plasma arc utilizing device such as an arc cutting machine, the switch may be switched to the DC power supply side.
Therefore, there is no need to provide a separate power supply line for an external device that is used only for a short time, and wiring of the power supply line can be simplified.

According to a second aspect of the present invention, there is provided a housing, a DC power supply provided in the housing for converting a commercial AC voltage into a DC voltage and applying the DC voltage between a torch and a workpiece. A compressed gas source that is provided in the body and generates a plasma arc between the torch and the workpiece; and a compressed gas that is provided in the housing and compresses the compressed gas from the compressed gas source between the torch and the workpiece. A compressed gas output terminal for supplying to the housing, a compressed gas input terminal provided in the housing, for inputting a compressed gas from a compressed gas source provided outside the housing, and provided in the housing, A gas switching unit that supplies a selected one of the compressed gas from the compressed gas input terminal and the compressed gas from the compressed gas source to the compressed gas output terminal.

According to the second aspect of the present invention, the compressed gas from the external compressed gas source can be supplied to the compressed gas output terminal via the compressed gas input terminal by operating the gas switching unit. Alternatively, a compressed gas can be supplied from a built-in compressed gas source to a compressed gas output terminal. Therefore, when using a plurality of plasma arc equipment at the same time, when using compressed gas from an external compressed gas source, the compressed gas from the built-in compressed gas source is supplied to the compressed gas output terminal. No loss occurs.

It should be noted that the inventions according to claims 1 and 2 are combined,
A housing, provided in the housing, an AC input terminal for receiving a commercial AC voltage, and a DC power supply unit provided in the housing and converting a commercial AC voltage from the AC input terminal to a DC voltage. A DC output terminal provided on the housing, for applying the DC voltage between the torch and the workpiece; and a DC arc terminal provided in the housing to generate a plasma arc between the torch and the workpiece. A compressed gas source, an AC output terminal provided in the housing, for supplying the commercial AC voltage to an external device, and a commercial AC voltage from the AC input terminal provided in the housing. A changeover switch for supplying a selected one of the DC power supply unit and the AC output terminal to a selected one of the DC power supply unit and the AC output terminal; A compressed gas output terminal, a compressed gas input terminal provided in the housing, for inputting a compressed gas from a compressed gas source provided outside the housing, and a compressed gas input terminal provided in the housing. Compressed gas from the terminal,
A gas switching unit that supplies a selected one of the compressed gas from the compressed gas source and the compressed gas output terminal,
It can also be provided.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A DC power supply according to one embodiment of the present invention is a DC power supply for a plasma arc cutting machine having a built-in air compressor as a compressed gas source. As shown in FIG. Two. The housing 2 has a DC power supply unit 4. This DC power supply unit 4
When the commercial AC voltage is input to the input side, it is once converted into a DC voltage by the input side rectifier and the smoothing unit, and this DC voltage is converted by the inverter to, for example, 20 kHz to 10 kHz.
This is converted into a high frequency voltage of 0 KHz, which is transformed by a transformer, and the transformed high frequency voltage is converted into a DC voltage by an output rectifier and an output smoothing unit. By using the inverter in this way, a small transformer and a reactor used in the smoothing unit can be used, and the power supply unit 4 can be downsized.

A DC output terminal 1 for applying a DC voltage from a DC power supply unit 4 between the torch 6 and the workpiece 8.
0 a and 10 b are provided in the housing 2.

The housing 2 is provided with AC input terminals 12a and 12b for inputting a commercial AC voltage. Further, the housing 2 is also provided with AC output terminals 14a and 14b for supplying a commercial AC voltage to an external device 13 such as an electric drill. AC input terminal 1
2b and the AC output terminal 14b are directly connected, and both terminals 12b and 14b are connected to one input side of the DC power supply unit 4.

A changeover switch 16 which can be manually operated from outside the housing 2 is provided in the housing 2. The changeover switch 16 includes a contact 16a, two contacts 16b,
16c. The contact 16a includes a contact 16b,
16c can be arbitrarily selected.
The contact 16b is connected to the AC output terminal 14a,
“c” is connected to the other input side of the DC power supply unit 2.

Therefore, the contact 16a of the changeover switch 16
Is switched to the contact 16b side, the AC input terminal 12
The commercial AC voltage supplied to the a and 12b is supplied to the electric drill 13 through the AC output terminals 14a and 14b, and a small hole can be formed, for example, as a pre-processing of a hole by a plasma arc. This DC power supply is connected to the AC output terminal 14
a and 14b to which the commercial AC voltage is selectively supplied, so that it is not necessary to lay a separate commercial AC line for the electric drill 13.

When the contact 16a of the changeover switch 16 is switched to the contact 16c, the commercial AC input terminal 12
a, 12b is supplied to the input side of the power supply unit 2, the DC power supply unit 4 generates a DC voltage,
This is supplied between the torch 6 and the workpiece 8 via the DC output terminals 10a and 10b. At this time, since the AC voltage is not supplied to the AC output terminals 14a and 14b, the electric drill does not operate erroneously. vice versa,
When an AC voltage is generated at the AC output terminals 10 a and 10 b, no DC voltage is supplied between the torch 6 and the work piece 8 because no AC voltage is supplied to the DC power supply unit 4. .

In the housing 2, a compressed gas source, for example, an air compressor 18 is provided. The compressed air from the air compressor 18 is supplied to a switching unit, for example, one input side of a switching valve 20. This switching valve 20
Has another input side, which is connected to a compressed gas input terminal 22 provided in the housing 2. The compressed gas input terminal 22 is connected to an external compressed gas source provided outside the housing 2, for example, a large air compressor 24.
It is connected to the. The output side of the switching valve 20 is connected to the compressed gas output terminal 26 of the housing 2. This compressed gas output terminal 26 is connected to the torch 6.

The switching valve 20 is capable of switching between a state in which one input side is connected to the output side and a state in which the other input side is connected to the output side.
The driving is performed by a driving unit 28 provided in the control unit, for example, a solenoid. The switching valve 20 can be driven by hydraulic pressure.

A control circuit 30 for controlling the driving section 28 is provided in the DC power supply section 4. The control circuit 30 includes a changeover switch 32 connected to the DC power supply unit 4.
The drive unit 28 is controlled in response to the operation. The changeover switch 32 includes a contact 32a and two contacts 32b and 32c.
The contact 32a can be arbitrarily switched between a state of contact with the contact 32b and a state of contact with the contact 32c by a user operation of the DC power supply.

When the contact 32a is in contact with the contact 32b, the control circuit 30 controls the drive unit so that the compressed air from the air compressor 18 is supplied to the torch 6 via the compressed gas output terminal 26. 28 is supplied with a control signal. When the contact 32a is in contact with the contact 32c, the control circuit 30 controls the external large air compressor 24 via the compressed gas input terminal 22.
The control signal is supplied to the driving unit 28 so that the compressed air from the controller is supplied to the torch 6 via the compressed gas output terminal 26.

When the compressed air from the air compressor 18 is supplied to the torch 6, the compressed air from the external large air compressor 24 is not supplied to the torch 6, and conversely, the external large air compressor 24 is not supplied.
In the state where the compressed air from is supplied to the torch 6,
The compressed air from the built-in air compressor 18 is not supplied to the torch 6.

Accordingly, in order to perform processing such as drilling on a workpiece by a plurality of plasma arc cutting machines, compressed air is supplied from a large external air compressor 24 to the torch 6.
In this case, the compressed air from the air compressor 18 in the housing 2 is not supplied to the torch 6, so that no loss occurs.

Although the changeover switch 32 is used in the DC power supply device shown in FIG. 1, an open / close switch may be used. Although compressed air is used as the compressed gas, other compressed gases may be used. Although the DC power supply device of FIG. 1 implements the present invention in a DC power supply device of a plasma arc cutting machine, the present invention can also be implemented in other plasma arc utilizing equipment, for example, a plasma arc welding machine. .

[Brief description of the drawings]

FIG. 1 is a block diagram of a plasma arc cutting machine according to one embodiment of the present invention.

[Explanation of symbols]

2 Housing 4 DC power supply unit 6 Torch 8 Workpiece 10a 10b DC output terminal 12a 12b AC input terminal 14a 14b AC output terminal 16 Switching switch 18 Air compressor (built-in compressed gas source) 20 Switching valve (switching unit) 22 Compressed gas input Terminal 24 External large air compressor (external compressed gas source) 26 Compressed gas output terminal

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Kenzo Dangami 2-14-3 Awaji, Higashiyodogawa-ku, Osaka-shi, Osaka Inside Sansha Electric Works (72) Inventor Takeshi Omura 2-chome, Awaji, Higashiyodogawa-ku, Osaka-shi, Osaka No. 14-3 Inside Sansha Electric Manufacturing Co., Ltd. (72) Inventor Hideo Ishii 2-14-3 Awaji, Higashi Yodogawa-ku, Osaka City, Osaka Prefecture Inside Sansha Electric Manufacturing Co., Ltd.

Claims (2)

[Claims] 1. A housing, an AC input terminal provided in the housing for receiving a commercial AC voltage, and a commercial AC voltage provided in the housing and converted from the AC input terminal to a DC voltage. A DC power supply unit, a DC output terminal provided in the housing, for applying the DC voltage between the torch and the workpiece, and a DC output terminal provided in the housing, between the torch and the workpiece. A compressed gas source for generating a plasma arc; an AC output terminal provided on the housing, for supplying the commercial AC voltage to an external device; a commercial gas from the AC input terminal provided in the housing. A DC power supply device for a plasma arc utilizing device, comprising: a changeover switch for supplying an AC voltage to a selected one of the DC power supply unit and the AC output terminal. 2. A housing, a DC power supply unit provided in the housing, for converting a commercial AC voltage into a DC voltage and applying the DC voltage between a torch and a work piece, the housing being provided in the housing, A compressed gas source for generating a plasma arc between the torch and the workpiece; and a compression provided on the housing, for supplying compressed gas from the compressed gas source between the torch and the workpiece. A gas output terminal, a compressed gas input terminal provided in the housing, for inputting a compressed gas from a compressed gas source provided outside the housing, and a compressed gas input terminal provided in the housing, from the compressed gas input terminal. A DC power supply device for a plasma arc utilizing device, comprising: a gas switching unit that supplies a selected one of a compressed gas and a compressed gas from the compressed gas source to the compressed gas output terminal.