JPH0327882B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a light source device for an endoscope that sends illumination light to a light guide of an endoscope.

Generally, a light source device for an endoscope is provided with a socket to which the light guide cable of the endoscope is removably connected, and this socket has an exposed electrical contact such as a conductive contact for a strobe. There is. Therefore, when the light guide cable is removed from the socket, there is a risk that the operator or the like may touch the electrical contacts and receive an electric shock or be shot.

Therefore, a safety switch operator that is pressed by the end face of the light guide cable connector is provided protruding from the outer end face of the socket, so that the safety switch is closed and the electrical contacts are made conductive only when the connector is attached to the socket. I was able to think of something that I did. However, with this type of safety switch, if your finger or other object accidentally touches the safety switch,
The electrical contacts were energized and there remained a risk of electric shock or shot.

The present invention has been made focusing on the above circumstances,
The purpose is to avoid malfunctions,
Reliably detects endoscope insertion and removal with a simple configuration,
To provide a highly safe light source device for an endoscope that is free from the risk of causing accidents such as electric shock or shot even if an electric contact is touched when the endoscope is removed.

Embodiments of the present invention will be described below with reference to FIGS. 1 and 2.

In FIG. 1, 1 is an endoscope, and 2 is a light source device. The endoscope 1 includes an operating section 3, an insertion section 4, and a light guide cable 5, and the operating section 3 is provided with an eyepiece section 6. An image guide 8 is inserted into the operating section 3 and the insertion section 4 to optically connect the objective lens 7 and the eyepiece section 6. Also,
A light guide 9 is inserted into the insertion section 4, the operating section 3, and the light guide cable 5. In addition,
The image guide 8 and the light guide 9 are each formed by, for example, an optical fiber bundle.
A connector 10 is provided at the extending end of the light guide cable 5, and this connector 10 is connected to the light source device 2.
It is designed so that it can be detachably attached to the socket 11 of.

The connector 10 and socket 11 are constructed as shown in FIG. First, connector 1
0 is formed by fitting and fixing an electrically insulating base 13 into the opening at the tip of a nearly cylindrical connector body 12, and into the base 13 a guide tube 14 into which the tip of the ride guide 9 is inserted and a plurality of contact holders. 15 is attached. The guide tube 14 is attached so as to protrude from the distal end surface of the connector 10. Further, the contact receiver 15 is connected to the electrical contact 16 on the socket 11 side when the connector 10 is attached to the socket 11. This contact receiver 15 is connected to a conductive wire 17 inserted into the endoscope 1, and is used for strobe light emission, etc.

On the other hand, the socket body 18 of the socket 11 is made of an electrically insulating material. This socket body 18 has a guide tube 14 of the connector 10.
An insertion hole 19 into which the electrical contact 16 is inserted is provided. The electrical contact 16 protrudes and is adapted to fit into the hole 15a of the contact receiver 15 on the connector 10 side. This electrical contact 16 is connected via a conductive wire 20 to, for example, an imaging control circuit to be described later. A female threaded portion 21 is formed on the outer periphery of the socket body 18, and a tightening ring 22 fitted around the outer periphery of the connector body 12 is screwed into this female threaded portion 21.

Furthermore, a connector 10 is attached to the socket 11.
It has a built-in detection means that detects when it is worn. This detection means includes a light guide 34 that guides a part of the light emitted from the light sources 33 as light emitting means that are opposed to each other with the insertion hole 19 in between in the socket body 18, and Light receiving element 24 facing the end
It is set up as follows. And socket 11
Since the guide tube 14 is pulled out from the insertion hole 19 when the connector 10 is removed from the connector 10, there is nothing blocking the light from the light guide 34. Therefore, the light emitted from the light guide 34 is detected by the light receiving element 24. On the other hand, when the connector 10 is attached to the socket 11, the guide tube 14 is inserted into the insertion hole 19.
The light from the light guide 34 is blocked by the guide tube 14 and does not reach the light receiving element 24. That is, only when the connector 10 is removed from the socket 11, the light receiving element 24 is connected to the light guide 34.
It is designed to emit a signal when it receives light from the sun. Note that as the light guide 34, for example, an optical fiber bundle is used.

Further, an amplifier 27 is connected to the output end of the light receiving element 24 to amplify the detection signal. The output terminal of the amplifier 27 is connected to one input terminal of a comparator circuit 28, and the other input terminal of the comparator circuit 28 is connected to a reference voltage circuit 29.
A switching circuit 30 is connected to the output end of the comparator circuit 28 for cutting off current to the electrical contact 16. That is, the switching circuit 30 is connected to the power source 32 of the photographing control circuit 31, and is configured to control the output of the power source 32. Note that a light source 33 is connected to the power source 32, and power is also supplied to the light source 33.

Therefore, the power source 32 in this embodiment is configured so that the light source 33 does not turn off even if the connector 10 is removed. However, when the connector 10 is removed from the socket 11, it is possible to reduce the brightness to a level that the light receiving element 24 can detect.

Next, the operation of this embodiment will be explained. First, in the state shown in FIG. 2 in which the connector 10 of the endoscope 1 is removed from the socket 11 of the light source device 2, the insertion hole 1 is
Since the light guide 9 is empty, the light emitted from the light guide 34 enters the light receiving element 24 facing thereto. Therefore, the light receiving element 24 outputs a signal of a certain value or more, and this signal is amplified by the amplifier 27 and then compared with the reference voltage of the reference voltage circuit 29 in the comparison circuit 28. In other words, when an amount of light exceeding a certain predetermined value is incident on the light receiving element 24, it is detected, and the switching circuit 30 is activated to switch on the power source 3.
Cut off (stop) the output of 2. Therefore, the electrical contacts 16 of the socket 11 are not energized. Therefore, even if the electrical contact 16 is touched in this state, there is no risk of electric shock or shot. In addition, light source 2
5 turns on or dims.

On the other hand, when the connector 10 of the endoscope 1 is attached to the socket 11 of the light source device 2, the guide tube 14 of the connector 10 enters the insertion hole 19, so the light emitted from the light guide 34 is blocked by the guide tube 14. be done. Therefore, the light does not enter the light receiving element 24 and is not detected.
Switching circuit 30 is inactive and power supply 32 outputs. That is, the electric contact 16 is energized through the photographing control circuit 31. light source 33
lights up.

As explained above, when the connector is removed from the socket, the present invention includes a light guiding means for guiding a part of the light emitted from the light source for inputting the light into the light guide insertion hole, and a light guiding means for guiding a part of the light emitted from the light source into the light guide insertion hole The light of the socket is detected by a light receiving means, and the detection signal is used to operate a switching means to cut off current to the electrical contacts exposed in the socket.

Therefore, even if you accidentally touch the electrical contacts exposed outside the socket when the connector is removed from the socket, it is possible to prevent accidents such as electric shock or shooting. especially,
Since the insertion/removal state of the connector is detected by the detection means consisting of the light guiding means and the light receiving means as described above, the configuration can be simplified compared to, for example, a method using mechanical means. It is possible to detect the sensor reliably without mechanical damage, and its reliability can be improved. In addition, compared to those that detect magnetically, there are no disadvantages such as dirt on the magnet surface or changes in the gap between the magnet and the detection element, which can cause changes in the magnetic flux and cause malfunctions, and it can be detected reliably over a long period of time. The reliability can be improved in the same way as above. Also, it is not necessarily necessary to install a magnet etc. on the endoscope side.
The configuration on the endoscope side can be simplified.

[Brief explanation of the drawing]

FIG. 1 is a schematic overall configuration diagram showing an embodiment of the present invention, and FIG. 2 is a side sectional view of a socket and a connector in the same embodiment. 1... Endoscope, 2... Light source device, 10... Connector, 11... Socket, 16... Electrical contact, 2
4... Light receiving element, 25... Power supply, 27... Amplifier, 30... Switching circuit, 32... Power supply,
33...Light source, 34...Light guide.

Claims (1)

[Claims] 1. A socket having a light guide insertion hole into which the light guide of the endoscope is inserted, a socket to which the connector of the light guide is detachably connected, and an electrical contact for conduction to the endoscope side, and the above-mentioned socket connected to this socket. a light source that sends illumination light to the light guide; and a light guide means that is arranged so that one end faces the light source and the other end faces into the light guide insertion hole of the socket, and that guides a part of the light emitted from the light source. , a light receiving means for receiving light in the light guide insertion hole, and a switching means for cutting off current to the electrical contact based on a detection signal from the light receiving means when the light guide is not attached to the light guide insertion hole. A light source device for an endoscope, characterized by comprising: