JP2018074813A - Laser processing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a laser processing device capable of preventing malfunction due to a surge voltage included in a commercial power supply.SOLUTION: The laser processing device includes: noise suppression units 6 and 7 for suppressing noises included in a commercial power supply 1 to which the commercial power supply 1 is supplied via a breaker 4; and a power supply circuit 8 that generates a DC current power supply voltage based on the commercial power supply supplied from the noise suppression units and supplies the same to an internal circuit, in which a step-down insulation transformer 5 for stepping down the voltage of the commercial power supply is disposed before at least the power supply circuit.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a laser processing apparatus.

  The laser processing apparatus is an apparatus that prints or draws on a processing target portion by irradiating a processing target with laser light emitted from a laser light source. Usually, a control part and a laser processing part operate | move based on supply of commercial power supply around 100V or around 200V.

  The commercial power is supplied to the control unit and the laser processing unit via a power supply device. The power supply device is equipped with a surge suppression circuit or noise filter in front of the power supply circuit to remove noise contained in the commercial power supply to prevent noise from entering the power supply voltage supplied from the power supply circuit to the internal circuit. Like to do.

  Patent Document 1 discloses a lightning protection device that protects an electronic device from a high voltage caused by a lightning strike by supplying power from the power line to the electronic device via an insulating transformer and a line filter.

JP-A-53-106445

  In the power supply device of the laser processing apparatus as described above, the withstand voltage characteristic of the surge suppression board is not high, and in this situation, the surge voltage is repeatedly applied to the surge suppression board from the power line of the commercial power source, When the number of surge inputs to the circuit exceeds a preset limit value, the characteristics of the surge suppression board deteriorate and the surge voltage cannot be sufficiently suppressed.

Also, the noise filter does not have a high withstand voltage characteristic, and if a surge voltage or an overvoltage is repeatedly applied, an electric leakage is likely to occur.
In the lightning strike protection device disclosed in Patent Document 1, surge noise is attenuated by an insulation transformer and a line filter. However, when the characteristics of the line filter deteriorate due to a repeatedly applied surge voltage, the surge is supplied to an electronic device. The surge voltage contained in the power supply cannot be sufficiently suppressed.

  This invention is made in view of such a situation, and the objective is to provide the laser processing apparatus which can prevent the malfunctioning resulting from the surge voltage contained in a commercial power supply beforehand.

  A laser processing apparatus that solves the above problem is based on a noise suppression device that suppresses noise included in a commercial power source when commercial power is supplied via a breaker, and a commercial power source that is supplied from the noise suppression device. In a laser processing apparatus including a power supply circuit that generates a power supply voltage and supplies the power supply circuit to an internal circuit, a step-down insulating transformer that steps down the voltage of the commercial power supply is interposed between the breaker and the power supply circuit. It is characterized by that.

With this configuration, the peak value of the surge voltage included in the commercial power supply supplied to the power supply circuit is suppressed by the step-down insulating transformer.
In the above laser processing apparatus, it is preferable that the step-down insulating transformer is interposed between the breaker and the noise suppression apparatus.

With this configuration, the surge voltage included in the commercial power supply supplied to the noise suppression device is suppressed.
In the laser processing apparatus, the noise suppression device preferably includes a surge suppression circuit and a noise filter.

With this configuration, the surge voltage and noise are absorbed from the output voltage of the step-down isolation transformer by the surge suppression circuit and the noise filter.
In the above laser processing apparatus, the output voltage of the breaker is supplied to the primary coil of the step-down insulation transformer, and the step-down voltage output from the secondary coil of the step-down insulation transformer is supplied to the surge suppression circuit. It is preferable.

  With this configuration, the step-down voltage output from the secondary coil of the step-down isolation transformer is supplied to the surge suppression circuit, and the output voltage of the surge suppression circuit in which the surge voltage is suppressed is input to the noise filter.

In the above laser processing apparatus, it is preferable that the step-down insulating transformer is interposed between the noise suppression device and the power supply circuit.
With this configuration, the output voltage of the noise suppression device is stepped down by the step-down insulation transformer and supplied to the power supply circuit.

  According to the laser processing apparatus of the present invention, it is possible to prevent malfunction caused by a surge voltage included in a commercial power supply.

The block diagram which shows the power supply apparatus of a laser processing apparatus. (A) (b) is an output waveform diagram which shows operation | movement of a power supply device.

  Hereinafter, an embodiment of a power supply device of a laser processing apparatus will be described with reference to the drawings. As shown in FIG. 1, a commercial power supply 1 of around 100 V or around 200 V is supplied to a primary coil of a step-down isolation transformer 5 via a power terminal 2, a key switch 3 and a breaker 4.

  The power terminal 2 is a terminal block to which commercial power is supplied. The key switch 3 is a switch for opening and closing power supply to a unit that consumes a large amount of power, such as a laser light source, and other units.

  The breaker 4 operates so as to cut off the short-circuit current when a short-circuit failure occurs between the power terminal 2 and the step-down insulation transformer 5. In addition, the breaker is capable of performing a return operation when an abnormality is avoided after the short-circuit current is interrupted.

  The step-down insulating transformer 5 steps down the voltage of the commercial power source supplied to the primary side coil to a voltage of about 1 / 2.2 and outputs it from the secondary side coil. Even if an AC voltage of about 200 V is supplied as the commercial power source 1 with a step-down ratio of 1 / 2.2, an AC voltage of almost 100 V is output from the secondary side coil of the step-down insulating transformer 5, so that the power circuit 8 A general-purpose product of 100V specification can be used.

The step-down isolation transformer 5 attenuates noise included in the input voltage simultaneously with step-down of the input voltage.
The output voltage of the step-down isolation transformer 5 is input to the surge suppression circuit 6. The surge suppression circuit 6 clamps the high-frequency / harmonic component noise peak value included in the AC output voltage of the step-down insulating transformer 5 to a predetermined voltage and outputs the clamped voltage to the noise filter 7.

  The noise filter 7 suppresses normal common noise from the voltage clamped by the surge suppression circuit 6 and stabilizes the input voltage of the power supply circuit 8. The power supply circuit 8 smoothes the AC output voltage of the noise filter 7 and supplies it to the internal circuit 9 as a DC power supply voltage.

Next, the operation of the power supply device configured as described above will be described.
The commercial power source 1 is supplied to the step-down insulating transformer 5 through the power terminal 2, the key switch 3 and the breaker 4.

  As shown in FIG. 2A, the input voltage V1 supplied to the primary coil of the step-down isolation transformer 5 may include a surge voltage sv1 that reaches several times the peak value p of the normal input voltage. .

  The step-down isolation transformer 5 outputs an output voltage V2 obtained by stepping down the input voltage V1. At this time, the surge voltage sv2 included in the output voltage V2 is a voltage obtained by stepping down the peak value of the surge voltage sv1 to approximately ½.

  The surge suppression circuit 6 receives the output voltage V2 including the surge voltage sv2 that has been increased in voltage, and outputs the output voltage V3 that further attenuates the surge voltage sv2 to the power supply circuit 8 along with the operation of the noise filter 7.

Then, as shown in FIG. 2B, the DC power supply voltage V4 supplied from the power supply circuit 8 to the internal circuit 9 becomes a stable DC voltage from which noise is substantially removed.
In the power supply device of the laser processing apparatus as described above, the following effects can be obtained.

  (1) Since the step-down isolation transformer 5 having a step-down ratio of 1 / 2.2 is interposed between the breaker 4 and the surge suppression circuit 6, even if an AC voltage of about 200 V is supplied as the commercial power source 1. Since an AC voltage of almost 100 V is output from the secondary coil of the step-down insulating transformer 5, a general-purpose product of 100 V specification can be used for the power supply circuit 8. Therefore, the cost of the power supply circuit 8 can be reduced.

  (2) By interposing the step-down isolation transformer 5 between the breaker 4 and the surge suppression circuit 6, the surge voltage is suppressed by stepping down the input voltage from the commercial power source 1 and the surge voltage or overvoltage included in the input voltage. The circuit 6 can be supplied. Therefore, since the surge voltage supplied to the surge suppression circuit 6 can be suppressed, deterioration of the surge suppression circuit 6 due to the surge voltage can be suppressed.

  (3) Since the surge voltage input to the noise filter 7 is suppressed, it is possible to suppress deterioration of elements constituting the noise filter. Therefore, the occurrence of electric leakage due to the deterioration of the noise filter 7 can be suppressed.

  (4) Since the surge suppression circuit 6 can clamp the peak value of high-frequency / harmonic component noise contained in the AC output voltage to a predetermined voltage, the withstand voltage characteristics of the noise filter 7 and the power supply circuit 8 are set low. can do.

  (5) The noise filter 7 can suppress normal common noise from the voltage clamped by the surge suppression circuit 6 and stabilize the input voltage of the power supply circuit 8. Therefore, since the output voltage of the power supply circuit 8 can be stabilized, the operation of the internal circuit 9 can be stabilized.

  (6) Since the output voltage of the power supply circuit 8 can be stabilized, an inrush current to the internal circuit 9 due to a surge voltage or the like can be prevented. Therefore, damage to the internal circuit 9 due to inrush current can be prevented. This eliminates the need for replacement work due to damage to elements such as the laser oscillator constituting the internal circuit 9, and reduces the cost of parts and time required for repair.

  (7) Since an inrush current due to a surge voltage at the subsequent stage of the step-down insulating transformer 5 can be suppressed, the installation of a breaker for preventing overcurrent at the subsequent stage of the step-down insulating transformer 5 can be omitted.

  (8) Since an inrush current due to a surge voltage in the subsequent stage of the step-down insulating transformer 5 can be suppressed, this laser processing apparatus can be installed in an environment where the commercial power supply 1 with a lot of noise is supplied.

  (9) Voltage fluctuation of the commercial power source 1 due to the occurrence of an inrush current to the subsequent stage of the step-down insulating transformer 5 can be suppressed. Therefore, the power supply environment at the installation position of the laser processing apparatus can be stabilized.

In addition, you may change the said embodiment as follows.
The step-down insulating transformer 5 may be disposed between the noise filter 7 and the power supply circuit 8.

  DESCRIPTION OF SYMBOLS 1 ... Commercial power supply, 4 ... Breaker, 5 ... Step-down insulation transformer, 6 ... Noise suppression apparatus (surge suppression circuit), 7 ... Noise suppression apparatus (noise filter), 8 ... Power supply circuit.

Claims (5)

A noise suppression device that suppresses noise included in the commercial power source when the commercial power source is supplied via the breaker;
In a laser processing apparatus comprising a power supply circuit that generates a DC power supply voltage and supplies it to an internal circuit based on a commercial power supply supplied from the noise suppression device,
A laser processing apparatus, wherein a step-down insulation transformer for stepping down the voltage of the commercial power source is interposed between either the breaker and the power supply circuit. In the laser processing apparatus of Claim 1,
A laser processing apparatus, wherein the step-down insulating transformer is interposed between the breaker and the noise suppression device. In the laser processing apparatus of Claim 2,
The laser processing apparatus, wherein the noise suppression apparatus includes a surge suppression circuit and a noise filter. The laser processing apparatus according to any one of claims 1 to 3,
A laser processing apparatus, wherein an output voltage of the breaker is supplied to a primary coil of the step-down insulation transformer, and a step-down voltage output from a secondary coil of the step-down insulation transformer is supplied to the surge suppression circuit. In the laser processing apparatus of Claim 1,
A laser processing apparatus, wherein the step-down insulating transformer is interposed between the noise suppression device and the power supply circuit.