JP3914439B2 - Connector structure of electronic endoscope - Google Patents

Description

[0001]
【Technical field】
The present invention relates to a connector part structure of an electronic endoscope.
[0002]
[Prior art and its problems]
The electronic endoscope is connected to an external video processor provided at the distal end portion of the universal tube, a universal insertion portion at the distal end portion having flexibility, an operation portion at the base portion, a universal tube extended from the operation portion. And a connector body that is attached to and detached from the connector. In an electronic endoscope, an image formed by an objective optical system at the distal end of a body insertion portion is formed on a CCD, and the image signal is passed through a CCD cable inserted into the body insertion portion, operation portion, universal tube, and connector body. To an external video processor.
[0003]
4 and 5 show an example of a connector part body having a conventional structure. The connector main body 105 is provided with a CCD driver board 113 that scans the CCD and captures an image as a digital signal, amplifies a minute signal from the CCD, and outputs the amplified signal to a video processor. For this reason, by arranging the shield case (radiation noise shielding metal case) 109 for electromagnetically shielding the CCD driver board 113 in the connector section main body 105, the radiation noise generated from the CCD driver board 113 is external to the connector section main body 105. To prevent leakage.
[0004]
Further, the connector main body 105 is provided with an air / water supply base 121 communicating with the air / water supply channel 106 and a suction nipple 122 communicating with the suction channel 107. Thus, when the air / water supply base 121 and the suction nipple 122 are provided on the connector body 105, the air / water supply tube connecting the air / water supply base 121 and the air / water supply source outside the endoscope, and The suction tube connecting the suction nipple 122 and the suction device outside the endoscope does not interfere with the endoscope operation, and good operability can be obtained.
[0005]
However, since the shield case 109 is disposed in the connector main body 105 as described above, when the air / water supply base 121 and the suction nipple 122 are provided in the connector main body 105, the following is necessary. was there. That is, a protruding portion 108 ′ connected to the universal tube 104 is formed at one corner of the outer case 108 of the connector portion main body 105, and the air / water supply base 121 and the suction nipple 122 are connected to the protruding portion at a position not in contact with the shield case 109. It was necessary to fix to 108 '. Such a conventional structure hinders the miniaturization of the connector main body 105 and, in turn, hinders improvement in cleaning performance and transportability.
[0006]
OBJECT OF THE INVENTION
An object of the present invention is to provide a connector part structure of an electronic endoscope that realizes downsizing and improvement in cleanability and transportability.
[0007]
SUMMARY OF THE INVENTION
According to the present invention, a connector main body that is attached to and detached from the video processor is provided at the distal end portion of the universal tube extended from the operation portion, and this connector portion main body communicates with a suction channel extended from the distal end of the body insertion portion. The suction nipple and the air / water supply base communicating with the air / water supply channel extended from the distal end of the body insertion portion are opened, and in the connector portion main body, from the electronic circuit arranged in the connector portion main body An electronic endoscope provided with a shield case for shielding radiation noise is characterized in that a suction nipple and an air / water supply base are attached to the shield case.
[0008]
The connector body includes an outer case with a shield case built-in. On the side surface of the outer case, a pressure adjustment valve and a feedback terminal for adjusting a pressure difference between the inside of the endoscope and the outside of the endoscope can be attached.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
As shown in FIG. 1, an electronic endoscope 1 of this embodiment includes a flexible distal end side body insertion portion 2, a base operation portion 3, and a universal tube 4 extended from the operation portion 3. And the connector part main body 5 provided in the front-end | tip part of this universal tube 4 is provided. An air supply / water supply channel 6 and a suction channel 7 (see FIGS. 2 and 3) are inserted into the insertion portion 2, the operation portion 3, the universal tube 4, and the connector portion main body 5 of the electronic endoscope 1. One end of the water supply channel 6 is connected to an air / water supply nozzle (not shown) at the distal end of the body insertion portion 2, and one end of the suction channel 7 is opened at the distal end surface of the body insertion portion 2. The air / water supply nozzle is a nozzle for cleaning the observation window provided at the distal end of the in-body insertion portion 2. An image obtained by the objective optical system is converted into a digital signal by a solid-state imaging device (for example, a CCD (charge coupled device)), and this digital signal is inserted into the in-body insertion portion 2, the operation portion 3, and the universal tube 4. It is led to the connector part main body 5 via a not-shown). Furthermore, an illumination window is provided at the distal end portion of the body insertion portion 2, and a light guide fiber bundle (not shown) that transmits illumination light to the illumination window includes the body insertion portion 2, the operation portion 3, and the universal tube. 4 is led to the connector portion main body 5.
[0010]
As shown in FIGS. 2 and 3, the connector section body 5 includes a synthetic resin outer case 8 that forms an outer shell, and a shield case (a metal case for radiation noise shielding) 9 that is positioned in the outer case 8. Have. In the outer case 8, a connection plug 10 connected to an external video processor (not shown) and a light guide insertion plug 11 connected to a light source unit (not shown) in the video processor are formed to project. The connection plug 10 is covered with a cylindrical magnetic shield body 10a.
[0011]
In the shield case 9, a CCD driver board (electronic circuit) 13 that scans the CCD and captures an image as a digital signal, amplifies a minute signal from the CCD, and outputs it to a video processor, and a CCD cable 12 A core 15 made of a magnetic material for removing radiation noise from the remote cable 14 is provided. The remote cable 14 is connected to various switch devices provided in the operation unit 3. The shield case 9 has an opening 9a through which the CCD cable 12, the remote cable 14, the air / water supply channel 6 and the suction channel 7 are inserted. After the CCD substrate 13 and the noise removal core 15 are housed inside, the shield case 9 It covers with metal covers 16a and 16b which form a part. Therefore, the electromagnetic noise generated on the CCD driver board 13 is shielded by the shield case 9 and the metal covers 16a and 16b, and does not leak outside from the connector main body 5. The noise removal core 15 is sandwiched between the core holding substrate 17 and the substrate 18 and fixed in the shield case 9.
[0012]
Two mounting holes 8 a and 8 b are provided on the side surface of the outer case 8. The pressure adjusting valve 20 and the feedback terminal 19 are respectively screwed and fixed to the mounting holes 8a and 8b. The feedback terminal 19 is provided to ensure safety when using a treatment instrument that uses high-frequency power, such as an electric knife. The pressure adjustment valve 20 is an adjustment valve provided to equalize the pressure inside the endoscope and the outside of the endoscope, and is operated when performing EOG sterilization or autoclave sterilization, for example. The feedback terminal 19 and the pressure regulating valve 20 may be attached by screwing (screwing) or bonding.
[0013]
The outer case 8 and the metal cover 16a forming a part of the shield case 9 are provided with mounting holes 8c and 9b for the air / water feeding base 21 and mounting holes 8d and 9c for the suction nipple 22, respectively. ing. The air / water supply base 21 has a cylindrical base body 21a, a flange portion 21b, and a base 21d to which the air / water supply channel 7 is connected. At the opening edge of the mounting hole 8c of the outer case 8 A recess 8e for receiving the step portion 21c of the cylindrical base body 21a is formed. After the cylindrical base body 21a of the air / water supply base 21 is inserted into the mounting hole 8c of the outer case 8, the cylindrical base body 21a is inserted into the mounting hole 9b of the metal cover 16a. The flanged portion 21b is screwed. Further, a ring 23 is interposed between the flange portion 21b and the metal cover 16a. The screw 24 is screwed into the flange portion 21b and the ring 23, and the metal cover 16a and the ring 23 are screwed in different directions. Due to the tightening force of the screw 25, the step portion 21c of the cylindrical base body 21a is fitted into the recess 8e of the mounting hole 8c, and the air / water supply base 21 is fixed to the shield case 9. Further, the ring-shaped base body 21a and the mounting hole 8c, and the space between the cylindrical base body 21a and the flange portion 21b are liquid-tightly sealed by seal rings 26 and 27, respectively.
[0014]
The suction nipple 22 has a cylindrical connection port 22a, a cylindrical body 22b, and a flange portion 22c. After the cylindrical body 22b is fitted into the outer diameter portion of the cylindrical connection port 22a of the suction nipple 22, and this cylindrical body 22b is inserted into the mounting hole 8d of the outer case 8, the step 22d of the cylindrical body 22b is attached. It is fitted in the recess 8f of the hole 8d. A flange portion 22c is screwed between the cylindrical connection port 22a inserted into the mounting hole 8d and the cylindrical body 22b, and between the flange portion 22c and the metal cover 16b forming a part of the shield case 9. The suction ring nipple 22 is fixed to the shield case 9 by a tightening force of a screw 29 screwed to the flange portion 22c and the ring 26 and a screw 30 screwed to the metal cover 16b and the ring 26. is doing. Further, a seal ring 31, 32, 33 seals liquid tightly between the cylindrical body 22b and the mounting hole 9c, between the cylindrical connection port 22a and the cylindrical body 22b, and between the cylindrical connection port 22a and the flange portion 22c. Has been. The suction channel 7 is connected to the cylindrical connection port 22a with its tip held by the flange portion 22c. The suction nipple 22 is connected to an external suction mechanism (not shown), and the air / water supply port 10 is connected to an external air / water supply source.
[0015]
As described above, in the present embodiment, both the air / water feeding base 21 and the suction nipple 22 are attached to the shield case 9 of the connector portion main body 5. Therefore, it is not necessary to form a protruding portion at one corner of the outer case 8 in order to provide a space for mounting the air / water supply cap 21 and the suction nipple 22, and the connector body 5 can be downsized. Thereby, in addition to carrying and installing the electronic endoscope, it is easy to clean the air / water supply base 21 (air / water supply channel) and the suction nipple 22 (suction channel). Further, in the illustrated embodiment, the air / water supply cap 21 and the suction nipple 22 are reinforced by the flange portion and the ring and attached to the shield case 9, so that the shield case 9 is not damaged, and the function of the shield case 9 is improved. Will not be damaged.
[0016]
An outer cylindrical member 34 is coupled to the shield case 9 of the connector portion main body 5, and the outer cylindrical member 34 opens into the attachment hole 9 a. On the other hand, an inner cylindrical member 35 is coupled to the universal tube 4, and the inner cylindrical member 35 is connected to the outer cylindrical member 34 so as to be rotatable within a certain angular range. The air / water supply channel 6 connected to the air / water supply cap 21 of the connector body 5 and the suction channel 7 connected to the suction nipple 22 pass through the inner cylindrical member 35 from the mounting hole 9a of the shield case 9 and pass through the universal tube. It is pulled out to the 4th side. A joint portion between the inner cylindrical member 35 and the outer cylindrical member 34 is covered with an inner cylinder 36 and a rubber presser 37.
[0017]
【The invention's effect】
According to the present invention, by attaching the suction nipple and the air / water supply base directly to the shield case, it is possible to obtain a connector part structure of an electronic endoscope that realizes downsizing and improvement in cleanability and transportability.
[Brief description of the drawings]
FIG. 1 is an overall view showing an electronic endoscope to which the present invention is applied.
FIG. 2 is a cross-sectional view showing a connector body provided at the distal end of a universal tube.
FIG. 3 is a longitudinal sectional view showing a connector part body provided at a distal end part of a universal tube.
FIG. 4 is a cross-sectional view showing an example of a connector section body having a conventional structure.
5 is a longitudinal sectional view of the connector section main body of FIG. 4. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Electronic endoscope 2 Internal insertion part 3 Operation part 4 Universal tube 5 Connector part main body 8 Outer case 9 Shield case 19 Return terminal 20 Pressure adjustment valve 21 Air supply / water supply base 22 Suction nipple

Claims (3)

At the tip of the universal tube extended from the operation part, a connector part body that is attached to and detached from the video processor is provided.
In this connector part main body, a suction nipple communicating with a suction channel extended from the distal end of the body insertion part and an air supply / water supply base communicating with an air supply / water supply channel extended from the distal end of the body insertion part are opened,
And in the electronic endoscope provided with a shield case for shielding radiation noise from the electronic circuit arranged in the connector part body in the connector part body,
A connector part structure of an electronic endoscope, wherein the suction nipple and the air / water supply base are attached to the shield case. The connector part structure of an electronic endoscope according to claim 1, wherein the connector part body includes an outer case containing the shield case, and a pressure difference between the inside of the endoscope and the outside of the endoscope is provided on a side surface of the outer case. Connector structure of an electronic endoscope equipped with a pressure adjustment valve for adjustment. The connector part structure of the electronic endoscope according to claim 1, wherein the connector part main body includes an outer case including the shield case, and a feedback terminal is attached to a side surface of the outer case.

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