JP3607812B2 - Endoscope cable device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an endoscope cable device, and more particularly to a configuration of an endoscope cable device for suppressing noise from being radiated to the outside from each part of an endoscope (electronic endoscope) system using a ferrite core.
[0002]
[Prior art]
In an endoscope apparatus, various noise countermeasures are taken in order to remove noise radiated from the apparatus to the outside (high-frequency noise generated from an internal drive circuit or the like). That is, in this endoscope apparatus system, a scope is connected to a light source device and a processor device, and various devices such as an image recording device are connected to these. Also in the connector portion, various noise removing members such as an electrical shield and a ferrite core (magnetic body) are arranged.
[0003]
FIG. 5 shows a noise countermeasure configuration in a cable connector portion of a conventional endoscope scope. In FIG. 5, the connector unit 1 includes a light source device side connection portion 1A where the light input end 2 of the light guide is disposed, a cable 3 directly connected to the scope, and a branch cable 4 connected to the processor device. . In these cables 3 and 4, a plurality of signal lines and power supply lines having an electric shield structure are arranged. However, the cables 3 and 4 that collectively enclose these are electrically connected just below the outer skin. Shield bodies (metal nets) 3A and 4A are provided, and a double shield structure is provided.
[0004]
In addition, a circuit board on which various circuits are mounted is disposed in the connector unit 1 and various signal lines, power supply lines, and the like are connected to the circuit board. A ferrite core is disposed on these lines. At the same time, a ferrite core F <b> 1 is disposed on the outer periphery of the cable 4 at the root portion 4 </ b> E of the branch cable 4.
[0005]
That is, on the outer periphery of the cable 4 of the root portion 4E, a cover rubber 6 in which a metal support cylinder 5 is inserted is attached in order to prevent extreme bending of this portion. A ferrite core F1 is provided between the cable 4 and the cable 4. The shield 4A of the cable 4 is connected to the S terminal of the connector portion 1 (terminal connected to the ground of the electric knife) via the conductive wire 7.
[0006]
The ferrite core F1 has a high impedance at a predetermined frequency of the high frequency noise flowing through the internal conductive wire, and the noise current is converted into thermal energy by the resistance component of the impedance, thereby removing the noise. It is. Conventionally, such a ferrite core F1 is provided, and the shields 3A, 4A and the like provided on the cables 3 and 4 are connected to the ground potential, so that high-frequency noise can be well removed.
[0007]
[Problems to be solved by the invention]
However, in the arrangement of the ferrite core F1 in the conventional endoscope cable device, even if a predetermined noise is removed by the ferrite core F1, as shown in FIG. 5, a cover rubber having a metal support cylinder 5 on the outer periphery thereof. Since 6 is arranged, there has been a problem in that noise is not effectively prevented from being diffused.
[0008]
That is, the metal support tube 5 of the cover rubber 6 is in contact with a metal connection tube 9 attached to the case body 8 of the connector portion 1, and noise current is supplied to the support tube 5 through the connection tube 9. As a result, it was found that the support cylinder 5 serves as an antenna to dissipate noise to the outside, and as a result, the noise removal effect decreases.
[0009]
The present invention has been made in view of the above-mentioned problems, and its purpose is to prevent noise current from wrapping around the conductive support in the cover rubber, without reducing the noise removal effect of the ferrite core. An object of the present invention is to provide an endoscope cable device.
[0010]
In order to achieve the above object, the invention of claim 1 is directed to a cable for connecting a scope in which an image sensor is arranged and each device of an endoscope system using a connector, and an end of the cable. A cover rubber disposed as an exterior member and having a conductive support, a ferrite core for noise removal disposed inside the cover rubber and outside the cable, and for attaching and holding the cable to the scope or connector A conductive holding portion, and an insulating member that is inserted in a connecting portion between the conductive holding portion and the conductive support of the cover rubber to avoid electrical contact therebetween. It is characterized by.
According to the second aspect of the present invention, the base side of the cover rubber is cut and an insulator outer member is attached, and the insulator outer member is connected to the electric conductor between the conductive holding portion and the conductive support of the cover rubber. It is used as the insulator member for avoiding mechanical contact.
[0011]
According to the above configuration, the insulating member eliminates contact between the conductive connecting member (conductive holding portion) of the connector portion and the conductive support cylinder of the cover rubber, for example, and noise wraps around the outer periphery of the ferrite core. Is avoided. Therefore, unlike the prior art, it is possible to prevent the support cylinder from functioning as an antenna and dissipate noise.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
1 to 3 show an endoscope cable device according to a first example of an embodiment. First, an overall configuration of an endoscope (electronic endoscope) will be described with reference to FIG. In FIG. 3, a CCD 11 is attached to the distal end of the scope 10, and a cable 12 and a connector part 13 integrated with the cable 12 are provided in the operation part 10 </ b> A of the scope 10. The cable 12 is connected to the light source device 15 via the connector portion 13, and the branch cable 16 branched from the connector portion 13 is connected to the processor device 17 via the connector portion 16B.
[0013]
That is, the cable 12 includes a light guide connected to the light source device 15 and signal lines and power lines connected to the processor unit 17, and the branch cable 16 includes signal lines and power lines. Become. In addition, the S terminal 18 connected to the ground of an electric knife is arrange | positioned at the connector part 13 of FIG. In addition, a circuit board on which various circuit members are mounted is provided in the connector portion 13.
[0014]
FIG. 1 shows an internal enlarged configuration of the root portion 16A of the branch cable 16 described in FIG. 3, and FIG. 2 shows a cross-sectional view taken along line II-II of FIG. The root portion 16 </ b> A is rotatable with respect to the connector portion 13 by a predetermined angle.
[0015]
That is, the cable 16 is fitted into the holding cylinder 20, and a connecting ring 21 is provided integrally with the holding cylinder 20. The connection is fixed with a ring. The connecting cylinder 24 is attached to the case body 13A with a nut member 25, and on the side surface of the connecting cylinder 24, a regulation groove 28 on which a pin 27 fixed to the connecting ring 21 slides within a predetermined angle range. Is formed.
[0016]
Further, as shown in FIG. 2 , the cable 16 has a shield body 31 made of a metal net on the lower side of the outer skin 30, and a role of a support pipe for the cable 16 inside the shield body 31. In addition, a screw tube (spiral tube) 32 for providing flexibility is disposed. The shield body 31 is connected to the S terminal 18 of the connector portion 13 via a lead wire 33, and a conductive line 34 such as a signal line or a power line is disposed inside the cable 16.
[0017]
On the other hand, a cover rubber 38 in which a metal support cylinder 37 is inserted is placed outside the cable 16. In this example, the impedance frequency characteristic with respect to noise is covered between the cover rubber 38 and the cable 16. Two ferrite cores F2 and F3 having different diameters are attached. For example, a ferrite core F2 having a characteristic of an impedance of 100Ω or higher at several tens to 100 MHz and a ferrite core F3 having a characteristic of an impedance of 100Ω or higher at about 50 to 500 MHz are disposed.
[0018]
The frequency characteristics of these ferrite cores F2 and F3 are adjusted by changing the distribution ratio of materials such as Ni (nickel) and Zn (zinc), and the dimensions of the core itself such as the volume or length and thickness. In other words, other characteristics may be used.
[0019]
In the first example, an insulator ring 40 made of synthetic resin (non-conductive member) is disposed between the connection tube 24 of the connector part 13 and the support tube 37 of the cover rubber 38, The insulator ring 40 is fixed to the connection cylinder 24 by a screw coupling portion G1. Note that an O-ring 41 is disposed on the outer periphery of the insulator ring 40.
[0020]
Therefore, in the first example, the metal support cylinder 37 of the cover rubber 38 is electrically separated from the connection cylinder 24 on the connector part 13 side by the above-described synthetic resin insulator ring 40. Thus, it is avoided that the noise current wraps around the support cylinder 37, and the support cylinder 37 of the cover rubber 38 is prevented from functioning as an antenna to dissipate noise.
[0021]
As a result, the noise removal effect of the ferrite cores F2 and F3 can be exhibited, and noise diffusion from the cable device can be satisfactorily suppressed. In particular, in this example, high frequency noise can be removed in a wide band by the two ferrite cores F2 and F3 having different impedance frequency characteristics.
[0022]
FIG. 4 shows a configuration of a second example of the embodiment. In the second example, an insulator member is provided on the cover rubber side. That is, the connecting cylinder 43 of the connector portion 13 is made of the same metal as the conventional one, and the base side of the cover rubber 44 and the metal support cylinder 45 of the insert formation is cut, and the support cylinder 45 is insulated with a synthetic resin. A body cylinder 46 is attached. As in the case of the first example, the insulator cylinder 46 is fixed by screwing at the screw coupling portion G2.
[0023]
Also in such a second example, the metal support cylinder 45 of the cover rubber 44 is electrically separated from the connection cylinder 43 on the connector part 13 side by interposing the synthetic resin insulator cylinder 46, so that the noise is reduced. It is avoided that an electric current wraps around the support cylinder 45, and noise radiating from the support cylinder 45 serving as an antenna is suppressed.
[0024]
In the above example, the case of the root portion 16A of the branch cable 16 has been described. However, the connector portion 16B (the processor device connection side shown in FIG. 3) on the opposite side of the cable 16 or the scope 10 is directly connected. The present invention can be applied to both ends on the cable 12 side.
[0025]
【The invention's effect】
As described above, according to the present invention, in the case where the connecting cable between the devices is covered with a cover rubber having a conductive support, and the ferrite core for noise removal is disposed between the cover rubber and the cable, Since an insulating member for avoiding electrical contact between the cover rubber conductive support and the conductive member on the holding portion side for attaching and holding the cable is inserted, the cover rubber Noise sneaking around the support cylinder is avoided. Therefore, unlike the prior art, the support cylinder serves as an antenna to prevent the noise from being diffused, and the noise removal effect by the ferrite core can be made to function well.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a root portion of a branching cable that branches from a connector portion of FIG. 3, showing a configuration of an endoscope cable device according to a first example of an embodiment of the present invention.
2 is a cross-sectional view of the branch cable taken along the line II-II in FIG. 1; FIG.
FIG. 3 is an overall view showing a system of an endoscope apparatus.
FIG. 4 is a cross-sectional view showing a configuration of a second example of the embodiment.
FIG. 5 is a diagram showing a configuration of a connector portion connected to a light source device in a conventional endoscope cable device.
[Explanation of symbols]
1, 13, 16B ... Connector part,
3,12 ... cable,
4, 16 ... Branch cable, 4E, 16A ... Root part,
5, 37, 45 ... support cylinder,
6, 38, 44 ... Cover rubber,
9, 24, 43 ... connection tube,
37, 44 ... metal support tube,
40 ... insulator ring,
46 ... insulator cylinder,
F1-F3: Ferrite core.

Claims (2)

A cable for connecting the scope where the image sensor is arranged and each device of the endoscope system using a connector ;
Cover rubber arranged as an exterior member at the end of this cable and having a conductive support,
A ferrite core for noise removal arranged inside the cover rubber and outside the cable,
A conductive holding part for attaching and holding the cable to the scope or connector;
An endoscope cable device comprising: an insulating member that is inserted in a connecting portion between the conductive holding portion and the conductive support of the cover rubber to avoid electrical contact therebetween. A base side of the cover rubber is cut to attach an insulator exterior member, and the insulator exterior member is used to avoid electrical contact between the conductive holding portion and the cover rubber conductive support. The endoscope cable device according to claim 1, wherein the endoscope cable device is used as the insulator member.

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