JPH01191117A - Laser light path cutoff device - Google Patents

Abstract

PURPOSE:To prevent a shutter from falling from its driving shaft part even if a clamper is loosened by providing the driving shaft part penetrating the shutter. CONSTITUTION:This device is equipped with the shutter 13 which opens and closes a laser optical path 11 where laser light is guided and the driving shaft part which is clamped and fixed to the shutter 13 through the clamper and rotates the shutter between the cut off position where the laser light path 11 is cut off and the open position where the path 11 is opened. Here, the driving shaft part 32 which rotates the shutter 13 is provided penetrating the shutter 13. Consequently, even if the clamper 20 which clamps and fixes the shutter 13 and driving shaft part 32 is loosened, the shutter 13 is held on the driving shaft part 32 and prevented from falling the driving shaft part 32.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a laser beam path connecting device that interrupts laser light emitted from a laser oscillator.

[Conventional technology]

A laser device that irradiates laser light to the affected area within the body cavity is
Conventionally, as shown in FIG. 7, a YAG laser oscillator 1 is provided. This YAG laser oscillator 1 includes an excitation lamp 3 that excites a laser beam to a YAG laser rod 2.
It is equipped with a total reflection mirror 4, an output mirror 5, etc., which resonate this excited laser light and increase the output.
The laser beam emitted from this output mirror 5 is guided to a laser guide 8 via a reflecting mirror 6 and a dichroic mirror 7. The laser guide 8 is inserted, for example, into a forceps channel of an endoscope, and its tip is guided to the affected area within the body cavity, and laser irradiation is performed from the tip of the guide toward the affected area.

In FIG. 7, reference numeral 9 indicates an H e -Ne laser oscillation tube that outputs a visible light beam for guiding the laser beam, and 10 indicates a power supply section of the excitation lamp 2 .

By the way, the laser light path 11 through which this laser light is guided
A continuous device 12 is provided above, located between the total reflection mirror 4 and the YAG laser rod 2, for example, for intermittent emission of laser light. As shown in FIGS. 8 and 9, this continuous device 12 is equipped with a plate-shaped shutter 13. The shutter 13 has a first arm portion 14a that extends downward, and a second arm portion 14b that extends laterally following the upper end of the first arm portion 14a.
The tip of the arm 14b extends toward the laser beam path 11. The shutter 13 is rotated back and forth by the rotary solenoid 15 between a closed position where the second arm 14b blocks the laser beam path 11 and an open position where the second arm 14b leaves the laser beam path 11. The shutter 13 is connected to a rotating shaft 16 (drive shaft portion) of a rotary solenoid 15 via a holder 17.

To explain this connection structure, the holder ■7 is
By inserting the rotating shaft 1B into the insertion hole 18 opened on one end surface and tightening it with the fixing screw 19, the rotating shaft 1B
The first arm portion 14a and the second arm portion 1 of the shutter 13 are fixed integrally to the distal end surface of the holder 17.
The continuous portion with 4b is overlapped. The shutter 13 is tightened by inserting a screw 20 as a tool into the part where it meets the holder 17, and screwing the insertion end of the screw 20 into the threaded hole 21 on the tip surface of the holder 17. ,
Tightening is fixed to the holder 17.

Further, below the shutter 13, this shutter 13
A pair of optical sensors 22a and 22b are arranged to detect which rotational position the is in. The shutter 13 of these optical sensors 22a and 22b is in the open position when the optical path of one optical sensor 22a is blocked by the first arm 14a and the optical path of the other optical sensor 22b is not blocked. On the other hand, if the optical path of the other optical sensor 22b is blocked by the first arm 14a and the optical path of one optical sensor 22a is not blocked, the shutter 13 moves to the blocking position. It is designed to detect the presence of

The detection signals from these optical sensors 22a and 22b and the command signal for laser emission, that is, the signal indicating whether or not laser light is being emitted, are input to a control section (not shown), which controls the above two types. Based on the signal, it is determined whether the function of the shutter 13 is normal or abnormal.

That is, during laser beam emission, the control unit determines whether the shutter 13 is normal only when the shutter 13 is in the open position and the optical path of one optical sensor 22a is blocked by the first arm 14a. If it is determined that there is, and the laser beam emission is stopped,
When the shutter 13 is in the blocking position, the other optical sensor 2
The shutter 13 is determined to be normal only when the optical path of the second arm 2b is blocked by the first arm 14a, and in other conditions, for example, while the laser beam is being emitted, the shutter 13 is in the open position. If the optical path of the other optical sensor 22b is blocked even though the optical sensor 22b is present, the control section determines that there is an abnormality in the shutter 13 and stops the operation of the laser device.

[Problem to be solved by the invention]

However, in the conventional dosage device 12 described above, although the rotating shaft 16 of the rotary solenoid 15 is inserted and fixed into the holder 17, it does not penetrate through the shutter 13, and this shutter 13 is simply held. The tool 17 was merely tightened and fixed to the tip surface by the screw 20. For this reason, for example, if the shutter 13 is rotated frequently and the laser beam is repeatedly interrupted, this shutter 1
The screw 20 may become loose due to vibrations caused by the rotation of 3.
There was a risk that the shutter 13 would fall off.

If the shutter 13 falls off in this way, for example, the first
As shown in FIG. 0, the first arm portion 14a of the shutter 13
When the optical sensor 22b blocks the optical path of the other optical sensor 22b,
The optical sensors 22a and 22b output a detection signal indicating that the shutter 13 is in the closed position. Then, in a state where laser emission is stopped, the control unit closes the shutter 13.
Even though the shutter 13 has fallen off, it is determined that the shutter 13 is normal.

However, in reality, due to the shutter 13 falling off,
Since the laser optical path 11 remains open, when the power supply section 10 is turned on to excite the laser beam,
A problem arises in that the laser beam is emitted to the outside.

Therefore, an object of the present invention is to provide a laser optical path connecting device that can reliably prevent the shutter from falling off the drive shaft.

[Means to solve the problem]

Therefore, the present invention is characterized in that a drive shaft portion for rotating the shutter is provided to penetrate the shutter.

[Effect]

According to this configuration, since the drive shaft passes through the shutter, even if the fastener that secures the shutter and the drive shaft becomes loose, the shutter will still be attached to the drive shaft. This prevents the drive shaft from falling off the drive shaft.

〔Example〕

A first embodiment of the present invention will be described below with reference to FIGS. 1 and 2. In this first embodiment, the basic configuration of the connecting device is the same as that of the conventional device described above, so only the differences from the conventional technique will be explained here, and other identical components will be explained. The same numbers will be given to the same numbers and the explanation will be omitted.

That is, in this embodiment, the insertion hole 1 of the holder 17
8 is provided to penetrate in the axial direction, and a through hole 3 connected to the insertion hole 18 is provided at the center of rotation of the shutter 13.
1 is open. The rotating shaft 1B of the rotary solenoid 15 inserted into the insertion hole 18 is further extended in the axial direction, and an extended portion 32 of the rotating shaft 1B is led out through the through hole 31 of the shutter 13. There is.

According to such a configuration, since the rotating shaft 16 passes through the center of rotation of the shutter 13, even if the screw 2o should become loose due to vibrations caused by the rotation of the shutter 13,
Since the shutter 13 is held on the rotating shaft 16, it can be prevented from falling off from the holder 17.

In this way, even if the shutter 13 cannot be rotated due to the screw 20 falling off, the shutter 13
If the rotation center of the shutter 13 is located on the rotation axis 16, an abnormality of the shutter 13 can be detected by the optical sensors 22a and 22b.

That is, for example, during laser emission, shutter 1
Even when the rotating shaft 1G is rotated to rotate the shutter 13 from the closed position to the open position, the screw 20 comes off and the shutter 13
Since no rotational force is transmitted to the shutter 13, the shutter 13 is kept in the closed position. Therefore, the other optical sensor 2
Since the optical path of 2b remains blocked, the optical sensor 22a is sent to the control unit.

When the detection signal from 22b and the command signal indicating whether or not laser light is being emitted do not match, the control section determines that there is an abnormality in the shutter 13, and the operation of the laser device is immediately stopped.

Therefore, there is no possibility that laser light will be emitted undesirably, and safety is improved.

Note that the present invention is not limited to the first embodiment described above, and for example, as in the second embodiment shown in FIG. The protruding shaft 41 may be provided to protrude coaxially with the rotating shaft 1B, and the protruding shaft 41 may be inserted into the through hole 31 of the shutter 13.

In addition, as in the third embodiment shown in FIGS. 4 and 5,
A fitting groove 51 along the circumferential direction is formed in the lead-out portion of the extension portion 32 of the rotating shaft 1B that penetrates the shutter 13, and the fitting groove 51 prevents the shutter 13 from moving in the axial direction.
A shaped retaining ring 52 may be fitted.

According to this configuration, even if the fixation between the shutter 13 and the holder 17 is released due to the screw 20 falling off, the shutter 13 is held between the holder 17 and the retaining ring 52, so that the shutter 13 can be rotated. It does not move in the axial direction of the shaft 1B, and can be prevented from coming out from the outer periphery of the rotating shaft 16.

In addition, in this case, instead of the extension part 32 of the rotating shaft 16,
It is also possible to provide a fitting groove 51 in the protruding shaft 41 of the holder 17 shown in the second embodiment, and to use the retaining ring 52 to prevent the shutter 13 from being removed.

Furthermore, FIG. 6 shows a fourth embodiment of the present invention. In this fourth embodiment, the rotary solenoid 1
5 and the outer periphery of the shutter 13 are covered by a box-shaped case 62, and a through hole 63 is opened in the side wall B2 of this case 61, located on an extension of the rotation shaft 1B. The extension portion 32 of the rotating shaft 1B passing through the shutter 13 is inserted into the through hole 63. Note that the side wall 62 of the case 81 has an opening 64 through which the Reboot light passes.
is formed.

According to this configuration, since the shutter 13 is located between the holder 17 and the side wall 62 of the case 61 on the rotating shaft 161, the shutter 13 may move on the rotating shaft 16. , the extraction never comes out from this rotating shaft IB. In this case as well, it goes without saying that the protruding shaft 41 of the holder 17 shown in the second embodiment may be inserted through the opening 64 of the case 61 instead of the rotating shaft IB.

Further, the installation position of the shutter 13 is not specified between the total reflection mirror 4 and the YAG laser rod 2, but as shown by the imaginary line in FIG.
It may be installed between the output mirror 5 and the reflection mirror 6 in 1.

[Effects of the Invention] According to the present invention described in detail above, even if the tightening tool that secures the shutter and the drive shaft portion is loosened due to vibrations caused by the rotation of the shutter, The shutter is held on the drive shaft, which has the advantage of preventing it from falling off the drive shaft.

[Brief explanation of the drawing]

1 and 2 show a first embodiment of the present invention;
2 is a front view of the connecting device, FIG. 3 is a partially sectional side view of the second embodiment of the present invention, FIG. 4 and FIG. 5 shows a third embodiment of the present invention, FIG. 4 is a partially sectional side view of the connecting device, and FIG.
6 is a perspective view showing the fourth embodiment of the present invention, FIGS. 7 to 10 show the conventional technology, and FIG. 7 is a schematic diagram of the entire laser device. FIG. 8 is a perspective view of the connecting device, FIG. 9 is a partially sectional side view of the connecting device,
FIG. 10 is a perspective view showing a state in which the shutter has fallen off. 11... Laser optical path, 12... Continuation device, 13.
...Shutter, 16.41... Drive shaft part (rotating shaft,
protruding shaft), 20...Tighten with a tool (screw). Patent attorney Atsushi Tsuboi Procedural amendment written by Atsushi Tsuboi (1939), Display of the case, Japanese Patent Application No. 14641/1982, Title of the invention, Laser optical path appropriate amount device 3, Person making the amendment, Relationship with the case, Patent applicant ( 037) Olympus Optical Industry Co., Ltd. 4, Agent UBE Building, 3-7-2 Kasumigaseki, Chiyoda-ku, Tokyo 10
0 Telephone 03 (502) 3181 (main representative) 7, Contents of the amendment (1) In the 13th line of the second page of the specification, "excitation lamp 2" is corrected to "excitation lamp 3."

Claims (1)

[Scope of Claims] A shutter that opens and closes a laser beam path through which a laser beam is guided, and a shutter that is tightened and fixed to this shutter via a fastener, and that is placed in a closed position that blocks the laser beam path and an open position that opens this laser beam path. What is claimed is: 1. A laser beam path blocking device, comprising: a rotating drive shaft portion, wherein the drive shaft portion is provided to pass through a shutter.