JP2004275270A - Laser device - Google Patents

Abstract

A laser device for identifying a type of a probe is provided.
Kind Code: A1 A limit switch is provided at a different position in an outer peripheral direction of a connecting portion for inserting a probe. The ON / OFF state of the limit switches 2 and 3 differs depending on the difference in the outer diameter of the fixing screw attached to the probe, and the signal is input to the CPU 4. Identify the connected probe. Then, the type of the probe, the laser output by the probe, the laser output conditions suitable for the probe, and the like are displayed on the display unit 6.
[Selection diagram] Fig. 1

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to identification of a type of a probe attached to a laser device.
[0002]
[Prior art]
As shown in FIG. 9, the conventional laser device detects that the probe 32 has been inserted into the connection portion 30 of the laser device by a limit switch 31 provided inside the connection portion 30, and sends a signal to the CPU 33. I was
[0003]
In this operation, the probe 32 connected to the laser device presses a limit switch 31 attached to the inner surface of the connection portion 30 of the laser device to turn on the switch, and the signal is input to the CPU 33 to be inserted. Is detected. Then, by detecting that the probe 32 is attached to the laser device, the laser device is ready for use.
[0004]
As shown in FIG. 10, by providing a connection detection means of the probe 32 and a limit switch 34 for insertion detection and a limit switch 35 for lock detection for detecting a tightening position of a fixing screw for fixing the probe, There is known a device which can detect not only that it has been inserted into the connecting portion 30 but also whether or not it has been sufficiently locked. (See, for example, Patent Document 1).
[0005]
[Patent Document 1]
JP-A-4-161149
[Problems to be solved by the invention]
However, in the above-described conventional configuration, when there are a plurality of types of probes to be connected, the type cannot be recognized. Further, when the transmittance differs depending on the type of the probe, the output display and the actual output of the laser device may differ depending on the attached probe. Here, the type of the probe means a difference between a diameter of an optical fiber incorporated in the probe and a NA (Numerical Aperture). The transmittance is substantially determined by the relationship between the laser light incident on the optical fiber and the type of the optical fiber. For example, when the laser light incident on the optical fiber is constant, when the diameter of the optical fiber is smaller than the stop diameter of the laser light, the diameter of the optical fiber is larger than that when the diameter of the optical fiber is larger than the stop diameter of the laser light. Output decreases.
[0007]
As described above, when the type of the probe connected to the laser device is different, the original output displayed as the output display on the laser device and the actual output are different.
[0008]
As a countermeasure, it is necessary to recognize the type of the attached probe.
[0009]
The present invention has been made in view of the above-described conventional problems, and has as its object to provide a laser device capable of identifying the type of an inserted probe.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, a laser device according to the present invention includes a detection unit that detects that a probe incorporating an optical fiber is connected, and an identification unit that identifies the type of the connected probe. .
[0011]
In addition, the laser device of the present invention includes a plurality of detectors at positions different in distance from the connection part in a direction away from the connection part.
[0012]
Further, the laser device of the present invention includes a plurality of detectors at different positions in the connection direction of the probe from the end of the connection portion to which the probe is connected.
[0013]
Further, the laser device of the present invention has a display unit for displaying information, and displays the identification result by the identification unit and laser output information suitable for the connected probe on the display unit.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1)
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
[0015]
FIG. 1 is a block diagram schematically illustrating a laser device according to the present embodiment. In FIG. 1, reference numeral 1 denotes a connection portion having a substantially cylindrical shape into which a probe is inserted. The connection portion 1 is provided so as to be substantially perpendicular to the surface of the laser device. The probe is fixed by engaging with a fixing screw provided. Reference numerals 2 and 3 denote limit switches provided on the case of the laser device. The limit switches are provided at different distances from the connection portion 1 in the outer peripheral direction of the connection portion 1. It is provided at a position close to the connection part 1. 4 receives the signals from the limit switches 2 and 3, and detects the signals of the probes connected based on the signals and the data table stored in the storage device 5 and describing the relationship between the outputs of the limit switches 2 and 3 and the type of the probe. It is a CPU that identifies the type. Reference numeral 6 denotes a display unit for displaying the type of the probe identified by the CPU 4, the laser output by the probe, the output condition of a laser oscillation unit (not shown) suitable for the probe, and the like.
[0016]
Hereinafter, the actual operation will be described with reference to FIGS. 2 and 3 in which a probe 8 having a fixing screw 7 having a small outer diameter and a probe 10 having a fixing screw 9 having a large outer diameter are identified.
[0017]
It should be noted that the probe 8 and the probe 10 have different diameters of the incorporated optical fibers, have different output characteristics even with the same laser input, and have different outer diameters of the fixing screws.
[0018]
In the present embodiment, the data table stored in the storage device 5 identifies that the probe 8 having the fixing screw 7 having a small outer diameter is connected when only the limit switch 2 is ON, When both the limit switches 2 and 3 are ON, identification information is provided to identify that the probe 10 having the fixing screw 9 having a large outer diameter is connected.
[0019]
As shown in FIG. 2, when a probe 8 having a fixing screw 7 having a small outer diameter is connected, a signal that the limit switch 2 is turned on by the fixing screw 7 pressing the limit switch 2 is input to the CPU 4. You. On the other hand, as shown in FIG. 3, when the probe 10 having the fixing screw 9 having a large outer diameter is connected, the fixing screw 9 pushes both the limit switches 2 and 3 so that the limit switches 2 and 3 are turned on. A signal indicating that there is is input to the CPU 4. The CPU 4 turns ON only the limit switch 2 based on the signals received from the limit switches 2 and 3 and the data table stored in the storage device 5 and describing the relationship between the outputs of the limit switches 2 and 3 and the type of the probe. In the case of (1), it is determined that the probe 8 is connected, and when the limit switches 2 and 3 are ON, it is determined that the probe 10 is connected. That is, the type of the probe can be identified based on the number of times the limit switch has been turned ON. Then, the display unit 6 displays the type of the probe, the laser output by the probe, the output condition of a laser oscillation unit (not shown) suitable for the probe, and the like.
[0020]
Note that the signal that the limit switch 2 is ON can also be used as a signal for recognizing that the probe has been connected.
[0021]
Further, instead of the limit switch, a pressure-sensitive sensor such as a piezoelectric element, a photo sensor, or the like may be used, or any combination thereof may be used.
[0022]
(Embodiment 2)
Hereinafter, another embodiment of the present invention will be described with reference to FIGS.
[0023]
FIG. 4 is a block diagram schematically illustrating the laser device according to the present embodiment. In FIG. 4, reference numeral 1 denotes a substantially cylindrical connecting portion for inserting a probe, which is provided so as to be substantially perpendicular to the surface of the laser device. The probe is fixed by engaging with a fixing screw provided. Reference numerals 11 and 12 denote limit switches provided in the laser device. The limit switches are provided at different distances from the distal end of the connection portion 1 on the side connected to the probe in the longitudinal direction. 11 is provided at a position closer to the distal end side than the limit switch 12. 4 receives the signals from the limit switches 11 and 12, and stores the signals received from the limit switches 11 and 12 and the data table stored in the storage device 5 and describing the relationship between the outputs of the limit switches 11 and 12 and the type of the probe. The CPU identifies the type of the connected probe based on the CPU. Reference numeral 6 denotes a display unit for displaying the type of the probe identified by the CPU 4, the laser output by the probe, the output condition of a laser oscillation unit (not shown) suitable for the probe, and the like.
[0024]
The actual operation will be described below with reference to FIGS. 5 and 6. As shown in FIG. 5 and FIG. A case where the probe 16 having the long probe insertion portion 15 is identified will be described.
[0025]
The probe 14 and the probe 16 have different diameters of the optical fibers incorporated therein, have different output characteristics even with the same laser input, and have different lengths of the probe insertion portion inserted into the connection portion 1. .
[0026]
In the present embodiment, the data table stored in the storage device 5 is connected to the probe 14 having the probe insertion portion 13 having a short insertion portion when the limit switch 11 is ON. And when both the limit switches 11 and 12 are ON, the identification information is provided to identify that the probe 16 having the probe insertion portion 15 having a long insertion portion is connected. is there.
[0027]
As shown in FIG. 5, when the probe 14 including the probe insertion portion 13 having a short insertion portion is connected, the limit switch 11 is turned on when the probe insertion portion 13 presses the limit switch 11. Is input to the CPU 4. On the other hand, as shown in FIG. 6, when a probe 16 having a probe insertion portion 15 having a long insertion portion is connected, the probe insertion portion 15 pushes both of the limit switches 11 and 12 so that the limit is reached. A signal that the switches 11 and 12 are ON is input to the CPU 4. The CPU 4 turns on only the limit switch 11 based on the signals received from the limit switches 11 and 12 and the data table stored in the storage device 5 and describing the relationship between the outputs of the limit switches 11 and 12 and the type of the probe. In the case of (1), it is determined that the probe 14 is connected, and when the limit switches 11 and 12 are ON, it is determined that the probe 16 having characteristics different from those of the probe 14 is connected. Then, the display unit 6 displays the type of the probe, the laser output by the probe, the output condition of a laser oscillation unit (not shown) suitable for the probe, and the like.
[0028]
Note that the signal that the limit switch 11 is ON can be used as a signal for recognizing that the probe is connected.
[0029]
Further, instead of the limit switch, a pressure-sensitive sensor such as a piezoelectric element, a photo sensor, or the like may be used, or any combination thereof may be used.
[0030]
(Embodiment 3)
Hereinafter, a laser device according to another embodiment of the present invention will be described with reference to FIG.
[0031]
The same parts as those in the first and second embodiments are denoted by the same reference numerals, and detailed description is omitted. The difference from Embodiments 1 and 2 is that the positions at different distances from connecting portion 1 in the outer circumferential direction of connecting portion 1 shown in Embodiment 1 and the positions of connecting portion 1 shown in Embodiment 2 are different. The point is that the limit switches 2, 3, 11, and 12 are provided at both positions that are provided in the longitudinal direction and that are at different distances from the end of the connection portion 1 connected to the probe in the insertion direction of the probe. . However, the positions where the limit switches 2, 3, 11, and 12 are attached are the same as those in the first and second embodiments. Accordingly, the data table stored in the storage device 5 and describing the relationship between the output of the limit switch and the type of the probe indicates the relationship between the ON state of these four limit switches and the type of the probe. ing.
[0032]
In FIG. 7, the laser device according to the present embodiment is provided with limit switches 2, 3, 11, and 12 at different positions in the outer peripheral direction and the longitudinal direction of the connection portion 1, and the length of the probe insertion portion and the fixing screw The signal of the limit switch input to the CPU 4 differs depending on the combination with the size of the outer diameter. The CPU 4 identifies the connected probe based on the signal of the limit switch and the data table stored in the storage device 5. Then, the display unit 6 displays the type of the probe, the laser output by the probe, the output condition of a laser oscillation unit (not shown) suitable for the probe, and the like.
[0033]
When two limit switches are provided as shown in the first and second embodiments, two types of probes can be identified. However, by providing four limit switches at the positions shown in the present embodiment, the implementation is possible. Eight types of probes can be identified with the same limit switch mounting area as in the first and second embodiments.
[0034]
Note that a pressure-sensitive sensor such as a piezoelectric element, a photo sensor, or the like may be used instead of the limit switch, or any combination thereof may be used.
[0035]
(Embodiment 4)
Hereinafter, a laser device according to another embodiment of the present invention will be described with reference to FIG.
[0036]
The same parts as those in Embodiments 1 to 3 are denoted by the same reference numerals, and detailed description is omitted. The difference from the first to third embodiments is that a barcode reader 18 is provided at a position where the barcode 17 attached to the probe insertion section 15 can be read. The type of the probe is identified by inputting the information of the barcode 17 read by the barcode reader 18 to the CPU 4. The data table stored in the storage device 5 indicates the relationship between the information of the barcode 17 and the type of the probe.
[0037]
In FIG. 8, the laser device according to the present embodiment is provided with a limit switch 2 at a position in the outer peripheral direction of the connection portion 1 to detect whether or not a probe has been inserted. Then, the barcode 17 provided on the probe insertion section 15 is read by the barcode reader 18, and the read information is input to the CPU 4. The CPU 4 identifies the connected probe based on this information and the information stored in the data table of the storage device 5. Then, the display unit 6 displays the type of the probe, the laser output by the probe, the output condition of a laser oscillation unit (not shown) suitable for the probe, and the like.
[0038]
The insertion of the probe may be detected based on whether or not the barcode reader 18 has successfully read the barcode 17 provided on the probe.
[0039]
Further, in the present embodiment, the bar code 17 is provided in the probe insertion section 15, but it may be attached to a fixing screw, a probe body, or the like. It should be attached to.
[0040]
Further, a two-dimensional code, a non-contact tag, or the like may be used as the identification information provided on the probe, and a two-dimensional code reader, a non-contact tag reader, or the like may be used as the information reading unit.
[0041]
【The invention's effect】
As described above, according to the present invention, the type of the connected probe can be identified.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an outline of a laser device according to a first embodiment of the present invention; FIG. 2 is a block diagram showing an outline of a laser device connected to a probe according to a first embodiment of the present invention; FIG. 4 is a block diagram illustrating an outline of a laser device to which a probe according to the first embodiment is connected. FIG. 4 is a block diagram illustrating an outline of a laser device according to a second embodiment of the present invention. FIG. 6 is a block diagram showing an outline of a laser device to which a probe according to a second embodiment of the present invention is connected. FIG. 7 is a block diagram showing an outline of a laser device to which a probe according to a second embodiment of the present invention is connected. FIG. 8 is a block diagram showing an outline of a laser device. FIG. 8 is a block diagram showing an outline of a laser device to which a probe according to a fourth embodiment of the present invention is connected. Block diagram showing an outline of the block diagram Figure 10 conventional laser apparatus showing the outline of a device [Description of symbols]
1 Connections 2, 3, 11, 12 Limit switch 4 CPU
5 Storage device 6 Display unit 7, 9 Fixing screw 8, 10, 14, 16 Probe 13, 15 Probe insertion unit 17 Barcode 18 Barcode reader 30 Connection unit 31, 34, 35 Limit switch 32 Probe 33 CPU

Claims (8)

What is claimed is: 1. A laser device that uses a probe in which an optical fiber is incorporated and has a detection unit that detects that the probe is connected, and an identification unit that identifies the type of the connected probe. In a laser device used by connecting a probe incorporating an optical fiber, a connecting portion to which the probe is connected, and the probe is provided at a position different in distance from the connecting portion in a direction away from the connecting portion, and the probe is connected. A laser device comprising: a plurality of detectors for detecting that a probe has been detected; and an identification unit for identifying a type of a connected probe based on a signal from the detector. In a laser device used by connecting a probe incorporating an optical fiber, a connection portion to which the probe is connected, and the probe is provided at a position different in distance from an end of the connection portion with respect to a connection direction of the probe. A laser device comprising: a plurality of detection units for detecting connection; and an identification unit for identifying a type of a connected probe based on a signal from the detection unit. In a laser device used by connecting a probe incorporating an optical fiber, a connection portion to which the probe is connected, a position at a different distance from the connection portion in a direction away from the connection portion, and the probe of the connection portion are A plurality of detection units that are provided at different positions in the connection direction of the probe from the end on the side to be connected and detect that the probe is connected, and a probe connected based on a signal from the detection unit. A laser device having an identification unit for identifying a type. In a laser device used by connecting a probe incorporating an optical fiber, a connection unit to which the probe is connected, a detection unit that detects that the probe is connected, and reading identification information provided to the probe A laser device comprising: an information reading unit; and an identification unit that identifies a type of a connected probe based on a reading result of the information reading unit. 6. The laser device according to claim 5, wherein the identification information is optical information, and the information reading unit is an optical information reading device. The laser device according to any one of claims 1 to 6, further comprising a display unit for displaying information, wherein the display unit displays an identification result of the identification unit. The laser device according to any one of claims 1 to 7, further comprising a display unit for displaying information, wherein the display unit displays laser output information suitable for the probe identified based on the identification result of the identification unit.

Images