JP2020131275A - Laser machining device, laser machining system and method for adjusting spot diameter of laser machining device - Google Patents

Abstract

To provide a laser machining device facilitated in setting of the spot diameter of a laser beam.SOLUTION: A laser machining device 10 includes: a light source 20 emitting laser beam; a spot diameter variable mechanism 22 as a spot diameter adjusting part having a spot diameter setting part 41 capable of being operated from outside and adjusting the spot diameter of the laser beam on the basis of an operation by the spot diameter setting part 41; a storage part 33 storing, as a storage value Sv2, a value corresponding to the spot diameter of the laser beam obtained when machining a machining target object W in association with an intensity of irradiation with the laser beam obtained when machining the machining target W, in a state of being adjusted by the spot diameter setting part 41; and a spot diameter display part 42 electrically displaying the storage value Sv2.SELECTED DRAWING: Figure 1

Description

The present invention relates to a laser processing apparatus, a laser processing system, and a method for adjusting a spot diameter of a laser processing apparatus, which performs processing by irradiating a processing object with a laser beam.

Conventionally, there is known a laser processing apparatus that irradiates a work surface with a laser beam to form characters, symbols, figures, or the like (see, for example, Patent Document 1).
The laser processing apparatus of Patent Document 1 has an operation unit that can be operated by the user, and adjusts the spot diameter of the laser beam based on the operation by the operation unit. The operation unit is, for example, a dial type (rotary type). That is, by rotating the operation unit, the lens in the laser processing apparatus moves and the spot diameter of the laser beam is adjusted. This makes it possible to adjust the spot diameter without changing the distance between the laser processing device and the work.

Japanese Unexamined Patent Publication No. 2005-238327

By the way, in the laser processing apparatus as described above, the spot diameter may be reset by changing the setup depending on the object to be processed. Further, although the laser processing apparatus as described above is provided with a scale in advance for the operation unit, there is a possibility that the spot light cannot be set with good reproducibility, for example, because it is highly dependent on the user's feeling.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a laser processing apparatus, a laser processing system, and a method for adjusting the spot diameter of the laser processing apparatus, which can easily set the spot diameter of the laser beam. To provide.

A laser processing device that solves the above problems has a light source that emits laser light and an operation unit that can be operated from the outside, and spot diameter adjustment that adjusts the spot diameter of the laser light based on the operation by the operation unit. The irradiation intensity of the laser beam when processing the object to be processed is stored as a stored value as a storage value corresponding to the spot diameter in the laser beam when the object to be processed is processed in a state adjusted by the unit and the operation unit. It has a storage unit for storing the stored value and a display unit for electrically displaying the stored value.

According to the above aspect, a storage unit that stores a value corresponding to the spot diameter as a storage value and stores the value corresponding to the irradiation intensity of the laser beam when processing the object to be processed, and a display unit that electrically displays the stored value. Has. Therefore, when the spot diameter is set again, the stored value stored in the storage unit is displayed on the display unit, so that the spot diameter can be easily set.

In the laser processing apparatus, it is preferable that the display unit further displays a set value corresponding to the spot diameter of the laser beam when the operation unit is operated.
According to the above aspect, in order to further display the set value corresponding to the spot diameter of the laser beam when the operation unit is operated, the display unit confirms the set value corresponding to the spot diameter of the current laser beam. This makes it easy to adjust the spot diameter.

In the laser processing apparatus, it is preferable that the display unit alternately displays the stored value and the set value.
According to the above aspect, it is possible to easily confirm the stored value and the set value by alternately displaying the stored value and the set value on the display unit. Here, the values stored in the "set value" and the "stored value" do not mean the set value itself, but a broad meaning of the value corresponding to the set set value, and also. The "set value" means a value of the same type as the "stored value" or a value linked to it.

In the laser processing apparatus, it is preferable that the display unit simultaneously displays the stored value and the set value.
According to the above aspect, the set value can be adjusted while checking the stored value by simultaneously displaying the stored value and the set value on the display unit.

In the laser processing apparatus, it is preferable that the display unit displays the value to be displayed as a digital numerical value.
According to the above aspect, since the value displayed on the display unit is a digital numerical value, the set value and the stored value can be easily discriminated, and the setting becomes easy.

In the laser processing apparatus, the set value corresponding to the spot diameter of the laser beam when the operation unit is operated is compared with the stored value, and whether the set value is out of the specified range with respect to the stored value. It is preferable to include a control unit for determining whether or not the control unit, and a notification unit for notifying when the control unit determines that the set value is out of the specified range with respect to the stored value.

According to the above aspect, when the control unit determines that the set value is out of the specified range with respect to the stored value, it can be notified, and the user is notified that the set value is out of the specified range. it can.
The laser processing apparatus includes an operation input unit that outputs a start signal to the effect that processing of the processing object is started to the control unit, and the control unit has a set value within a specified range with respect to the stored value. It is preferable to cancel the start signal when it is determined to be outside.

According to the above aspect, when the control unit determines that the set value is out of the specified range with respect to the stored value, the start signal is canceled, so that a machining error of the machining target can be suppressed.

A laser processing system that solves the above problems includes a first communication unit and a light source that emits laser light, and communicates between the laser processing device that processes an object to be processed by the laser light and the first communication unit. A laser processing system including a portable information processing device provided with a second communication unit, wherein either the laser processing device or the portable information processing device has an operation unit that can be operated from the outside. A spot diameter adjusting unit that adjusts the spot diameter of the laser beam based on the operation by the operating unit, and a spot in the laser beam when processing an object to be processed in a state of being adjusted by the operating unit. It has a storage unit that stores a value corresponding to the diameter as a storage value and stores the value corresponding to the irradiation intensity of the laser beam when processing the processing object, and a display unit that electrically displays the stored value.

According to the above aspect, a storage unit that stores a value corresponding to the spot diameter as a storage value and stores the value corresponding to the irradiation intensity of the laser beam when processing the object to be processed, and a display unit that electrically displays the stored value. Has. Therefore, when the spot diameter is set again, the stored value stored in the storage unit is displayed on the display unit, so that the spot diameter can be easily set.

The method for adjusting the spot diameter of the laser processing apparatus that solves the above problems is to store the value corresponding to the spot diameter in the laser beam when processing the processing object as a stored value, and to process the laser light when processing the processing object. The spot diameter of the laser beam emitted from the light source is adjusted by the operation of the operation unit, and the value corresponding to the adjusted spot diameter and the stored value stored in advance are stored in advance in the storage unit according to the irradiation intensity. Is displayed on the display unit.

According to the above aspect, when the spot diameter is set again, the stored value stored in the storage unit is displayed on the display unit, so that the spot diameter can be easily set.

According to one aspect of the present disclosure, it is possible to provide a laser processing apparatus, a laser processing system, and a method for adjusting the spot diameter of the laser processing apparatus, which can easily set the spot diameter of the laser beam.

The schematic block diagram of the laser processing system in one Embodiment. The perspective view of the laser processing apparatus in the same embodiment. The explanatory view of the display part and the operation part of the laser processing apparatus in the same embodiment.

Hereinafter, an embodiment of a laser processing system including a laser processing apparatus will be described with reference to the drawings.
As shown in FIG. 1, the laser processing system 1 of the present embodiment includes a laser processing device 10 and a portable information processing device 100 connected to the laser processing device 10.

As shown in FIG. 1, the laser processing apparatus 10 includes a controller 11 and an irradiation head 12. The laser processing device 10 has a spot diameter arranged on the optical path of the light source 20, the scanning unit 21 that scans the laser light emitted from the light source 20, and the laser light formed between the light source 20 and the scanning unit 21. It has a variable mechanism 22 and a focusing lens 23 that converges the light scanned by the scanning unit 21 and emits it to the outside. In this example, the light source 20 is housed in the controller 11, and the scanning unit 21, the spot diameter variable mechanism 22, and the focusing lens 23 are housed in the irradiation head 12. In this case, the light emitted by the light source 20 is supplied to the spot diameter variable mechanism 22 via an optical fiber or the like.

The light source 20 may be any one that emits laser light, and examples thereof include a YAG laser and a CO ₂ laser.
The scanning unit 21 scans the laser beam emitted by the light source 20. The scanning unit 21 has, for example, a pair of galvano mirrors and an actuator for driving the pair of galvano mirrors. As a result, scanning is performed in two directions (two-dimensional directions) on the machined surface of the work target W.

The spot diameter variable mechanism 22 adjusts at least one of the beam diameter of the laser beam and the spread angle of the laser beam to adjust the spot diameter of the emitted laser beam.
As shown in FIG. 1, the controller 11 has a control unit 31 that controls the emission timing of the light source 20 and controls the operation of the scanning unit 21.

As shown in FIGS. 2 and 3, the irradiation head 12 is configured to have a substantially rectangular parallelepiped shape, and a spot diameter setting unit 41 as an operation unit, a spot diameter display unit 42, and a spot diameter setting are provided on the front surface 12a thereof. It has a determination display unit 43.

As shown in FIG. 3, the spot diameter setting unit 41 (an example of the operation unit) is, for example, a dial type (rotation operation type) operation knob. The spot diameter setting unit 41 is operated by the user to move various lenses in the spot diameter variable mechanism 22 shown in FIG. 1 to adjust at least one of the beam diameter of the laser beam and the spread angle of the laser beam. .. In other words, the spot diameter variable mechanism 22 shown in FIG. 1 adjusts the spot diameter of the laser beam based on the amount of operation of the spot diameter setting unit 41 as an operation unit.

As shown in FIG. 1, the adjustment amount detection unit 44 detects the adjustment amount of the spot diameter based on the operation amount of the spot diameter setting unit 41. The adjustment amount detection unit 44 may detect the operation amount itself of the spot diameter setting unit 41, or detect the movement amount of various lenses in the spot diameter variable mechanism 22 by the operation of the spot diameter setting unit 41. May be good.

The adjustment amount detection unit 44 outputs information on the detected spot diameter adjustment amount to the spot diameter conversion unit 32 in the controller 11. The spot diameter conversion unit 32 converts the spot diameter of the laser beam from the information on the adjustment amount of the spot diameter. Further, the spot diameter conversion unit 32 is connected to the control unit 31 and the spot diameter display unit 42 of the head 12. The spot diameter conversion unit 32 outputs the information of the set value Sv1 corresponding to the spot diameter of the laser beam when the spot diameter setting unit 41 is operated to the spot diameter display unit 42. The spot diameter conversion unit 32 may include an analog / digital converter.

As shown in FIG. 3, the spot diameter display unit 42 is composed of a 7-segment display. In FIG. 3, the spot diameter display unit 42 can electrically display, for example, a 4-digit digital numerical value. The spot diameter display unit 42 can display the information of the set value Sv1 as a digital numerical value. Therefore, the spot diameter conversion unit 32 adjusts the set value Sv1 to a value within a range that can be displayed by the spot diameter display unit 42. For example, when the operator operates the spot diameter conversion unit 32 to the minimum position, the spot diameter conversion unit 32 causes the spot diameter display unit 42 to display “0000”. On the other hand, when the operator operates the spot diameter conversion unit 32 to the maximum position, the spot diameter conversion unit 32 causes the spot diameter display unit 42 to display "9999".

A storage unit 33 is connected to the control unit 31. The storage unit 33 uses a value corresponding to the spot diameter in the laser beam when processing the processing target object W in a state adjusted by the spot diameter setting unit 41 obtained from the control unit 31 as a storage value Sv2, and stores the processing target object W. Is stored according to the irradiation intensity of the laser beam when processing. More specifically, the storage unit 33 stores the irradiation intensity of the laser beam and the stored value Sv2 as one file in association with each other. This file may include a processing pattern, a scanning speed by the scanning unit 21, and the like. Further, the storage unit 33 can store a plurality of the files in association with, for example, a file number. In this way, by having the storage unit 33 store the spot diameter information as the storage value Sv2 in advance in one file, the storage value Sv2 can be referred to by the control unit 31. Further, the control unit 31 outputs the stored value Sv2 to the spot diameter display unit 42 via the spot diameter conversion unit 32. The spot diameter display unit 42 displays the stored value Sv2 as a digital numerical value.

When the operator determines that the spot diameter at a certain set value Sv1 is good, the operator operates the input unit 110 to store the set value Sv1 as the storage value Sv2 in the storage unit 33 to store the set value Sv1. Set the value Sv2.

The spot diameter setting determination display unit 43 is connected to the control unit 31. Here, the control unit 31 of the present embodiment determines whether or not the set value Sv1 is out of the specified range with respect to the stored value Sv2. The control unit 31 outputs a determination result of whether or not the set value Sv1 is out of the specified range with respect to the stored value Sv2 to the spot diameter setting determination display unit 43. The spot diameter setting determination display unit 43 lights up in green when the set value Sv1 is within the specified range with respect to the stored value Sv2, and when the set value Sv1 is outside the specified range with respect to the stored value Sv2. Lights in red. That is, in this case, the spot diameter setting determination display unit 43 also serves as a notification unit.

As shown in FIG. 1, the portable information processing apparatus 100 can be set in various ways by the laser processing apparatus 10 by introducing dedicated application software into a general-purpose terminal such as a tablet terminal or a laptop computer, for example. .. As an example, the portable information processing device 100 has a control unit 101, a touch panel 102 capable of inputting and displaying, and a communication unit 103 as a second communication unit, and has a communication unit 34 of the laser processing device 10. It is possible to send and receive various information between them. The touch panel 102 includes a display unit and a touch sensor that detects an operation input by an operator. The communication mode between the communication unit 103 and the communication unit 34 may be either wired or wireless. Further, the communication between the communication unit 103 and the communication unit 34 may be performed via a cloud or the like. The portable information processing device 100 also serves as an input unit 110. In this case, the stored value Sv2 is set by operating the touch panel 102.

The operation of this embodiment will be described.
In the laser processing system 1 of the present embodiment, for example, the control unit 31 of the laser processing device 10 controls the light source 20 and the scanning unit 21 based on the processing data set in the portable information processing device 100 to control the processing object W. Is irradiated with a laser beam.

Further, in order to irradiate the object W to be processed with a laser beam and process the object W to be processed, the spot diameter setting unit 41 is operated to adjust the spot diameter of the laser beam. At that time, the spot diameter display unit 42 processes the set value Sv1 corresponding to the spot diameter of the laser beam when the spot diameter setting unit 41 is operated, and the object to be processed stored in the storage unit 33 in advance. The stored value Sv2 corresponding to the irradiation intensity of the laser beam is displayed. Then, the operator operates the spot diameter setting unit 41 so that the set value Sv1 displayed on the spot diameter display unit 42 and the stored value Sv2 are substantially equal to each other while comparing these displays. The spot diameter display unit 42 may display the set value Sv1 and the stored value Sv2 at the same time, or may display the set value Sv1 and the stored value Sv2 alternately.

According to the present embodiment described above, the following effects are obtained.
(1) A storage unit 33 that stores a value corresponding to the spot diameter as a storage value Sv2 and stores the value corresponding to the irradiation intensity of the laser beam when processing the object W to be processed, and a display unit that electrically displays the storage value Sv2. It has 42 and. Therefore, when the spot diameter is set again, the stored value Sv2 stored in the storage unit 33 is displayed on the display unit 42, so that the spot diameter can be easily set.

(2) The display unit 42 further displays the set value Sv1 corresponding to the spot diameter of the laser beam when the spot diameter setting unit 41 is operated, so that the set value corresponding to the current spot diameter of the laser beam is confirmed. This makes it easy to adjust the spot diameter. The stored value and the set value may be any value corresponding to the spot diameter for adjusting the spot diameter as described in the embodiment, the spot diameter itself may be used, or the spot diameter is replaced with a predetermined function or the like. It may be a diameter. For example, it may be a numerical value or symbol indicating the relative size of the spot diameter, an operation amount of the operation unit corresponding to the spot diameter (position or value of the dial type dial), or the like.

(3) By alternately displaying the stored value Sv2 and the set value Sv1 on the spot diameter display unit 42, it is possible to easily confirm the stored value Sv2 and the set value Sv1. Further, a display unit for displaying the stored value Sv2 and the set value Sv1 can be shared.

(4) By simultaneously displaying the stored value Sv2 and the set value Sv1 on the spot diameter display unit 42, the set value Sv1 can be adjusted while checking the stored value Sv2.
(5) Since the value displayed on the display unit 42 is a digital numerical value, the set value and the stored value can be easily discriminated, and the setting becomes easy.

(6) When the control unit 31 determines that the set value Sv1 is out of the specified range for the stored value Sv2, it can notify the user that the set value Sv1 is out of the specified range. Can be notified.

The above embodiment can be modified and implemented as follows. The above-described embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.

In the above embodiment, one spot diameter display unit 42 is provided to display the stored value Sv2 and the set value Sv1, but the stored value Sv2 and the set value Sv1 are individually provided with a plurality of display units. It may be displayed in.

-Although not particularly mentioned in the above embodiment, for example, an operation button as an operation input unit that outputs a start signal to the effect that processing of the processing object W is started may be provided on the touch panel 102. .. In this case, the control unit 31 may cancel the start signal when it determines that the set value Sv1 is out of the specified range with respect to the stored value Sv2. As a result, when the control unit 31 determines that the set value Sv1 is out of the specified range with respect to the stored value Sv2, the start signal is canceled, so that a machining error of the machining target W can be suppressed.

-In the above embodiment, the laser processing device 10 in which the irradiation head 12 and the controller 11 are separated is adopted, but the present invention is not limited to this, and a laser processing device in which the irradiation head and the controller are integrated may be adopted. .. In other words, the controller 11 may be omitted, and a laser processing device in which the functions and configurations of the controller 11 are mounted on the irradiation head 12 may be adopted.

-In the above embodiment, the portable information processing device 100 is used, but a stationary information processing device may be used. A desktop personal computer is an example of a stationary information processing device.

-In the above embodiment, the controller 11 includes the light source 20, but the present invention is not limited to this, and the irradiation head 12 may include the light source 20.
-In the above embodiment, the controller 11 and the portable information processing device 100 are separated, but the present invention is not limited to this, and the portable information processing device 100 may also serve as a part or all of the controller 11.

-In the above embodiment, the controller 11 and the portable information processing device 100 communicate with each other, but the present invention is not limited to this configuration, and communication units are provided in each of the controller 11 and the irradiation head 12, and these communication units are provided. It may be configured to communicate signals between the two.

In the above embodiment, the portable information processing device 100 also serves as an input unit 110, but the present invention is not limited to this, and the laser processing device 10 may be configured to include the input unit 110.
-The spot diameter setting determination display unit 43 of the above embodiment also serves as a notification unit, but the present invention is not limited to this, and a separate notification unit may be provided. In this case, the notification unit is not limited to the configuration provided in the irradiation head 12, and may be provided in the controller 11. Alternatively, the notification unit may be configured such that the display unit of the touch panel 102 also serves.

-In the above embodiment, the spot diameter conversion unit 32 is provided, but the present invention is not limited to this, and the output value of the adjustment amount detection unit 44 may be displayed as it is as the set value Sv1. Further, the output value of the adjustment amount detection unit 44 may be output to the control unit 31 as it is.

-In the above embodiment, the storage unit 33 is provided in the controller 11, but the storage unit 33 is not limited to this, and may be provided in the irradiation head 12 or the portable information processing device 100. Alternatively, it may be a server system such as a cloud outside the laser processing system 1.

1 ... Laser processing system, 10 ... Laser processing device, 20 ... Light source, 31 ... Control unit, 33 ... Storage unit, 41 ... Spot diameter setting unit (operation unit), 42 ... Spot diameter display unit (display unit), 43 ... Spot diameter setting judgment display unit (notification unit), 100 ... portable information processing device, W ... processed object, Sv1 ... set value, Sv2 ... stored value.

Claims (9)

A light source that emits laser light and
A spot diameter adjusting unit that has an operating unit that can be operated from the outside and adjusts the spot diameter of the laser beam based on the operation by the operating unit.
In the state adjusted by the operation unit, the value corresponding to the spot diameter in the laser beam when processing the object to be processed is stored as a stored value, and corresponds to the irradiation intensity of the laser beam when processing the object to be processed. A memory unit that remembers
A display unit that electrically displays the stored value and
Laser processing equipment with. The laser processing apparatus according to claim 1, wherein the display unit further displays a set value corresponding to the spot diameter of the laser beam when the operation unit is operated. The laser processing apparatus according to claim 2, wherein the display unit alternately displays the stored value and the set value. The laser processing apparatus according to claim 2, wherein the display unit simultaneously displays the stored value and the set value. The laser processing apparatus according to any one of claims 1 to 4, wherein the display unit displays a value to be displayed as a digital numerical value. Control to compare the set value corresponding to the spot diameter of the laser beam when the operation unit is operated with the stored value to determine whether or not the set value is out of the specified range with respect to the stored value. Department and
A notification unit that notifies when the control unit determines that the set value is out of the specified range with respect to the stored value.
The laser processing apparatus according to any one of claims 1 to 5. It is provided with an operation input unit that outputs a start signal to the effect that processing of the processing object is started to the control unit.
The laser processing apparatus according to claim 6, wherein the control unit cancels the start signal when it determines that the set value is out of the specified range with respect to the stored value. A laser processing apparatus that includes a first communication unit and a light source that emits laser light, and processes an object to be processed by the laser light.
A portable information processing device provided with a second communication unit that communicates with the first communication unit, and
It is a laser processing system that has
Either the laser processing device or the portable information processing device has an operation unit that can be operated from the outside, and a spot diameter adjustment unit that adjusts the spot diameter of the laser beam based on the operation by the operation unit. And, in the state adjusted by the operation unit, the value corresponding to the spot diameter in the laser beam when processing the object to be processed is stored as a stored value, and the irradiation intensity of the laser beam when processing the object to be processed is used. A laser processing system having a storage unit for correspondingly storing and a display unit for electrically displaying the stored value. A value corresponding to the spot diameter in the laser beam when the object to be processed is processed is stored in the storage unit in advance in accordance with the irradiation intensity of the laser beam when the object to be processed is processed.
By operating the operation unit, the spot diameter of the laser beam emitted from the light source is adjusted.
A method for adjusting the spot diameter of a laser processing apparatus, which displays a value corresponding to the adjusted spot diameter and the stored value stored in advance on a display unit.