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Publication numberUS3670721 A
Publication typeGrant
Publication dateJun 20, 1972
Filing dateFeb 5, 1970
Priority dateFeb 5, 1970
Publication numberUS 3670721 A, US 3670721A, US-A-3670721, US3670721 A, US3670721A
InventorsMasaharu Fukami, Toshiyuki Mori
Original AssigneeOlympus Optical Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Endoscope
US 3670721 A
Abstract
Endoscope having a bendable tube connected to a forward end member adapted to be inserted into a hollow body portion to be inspected and controlled from a control housing and an elongated flexible tube connecting the bendable tube and the control housing. The flexible tube has a thin tubular synthetic resin layer having a tubular net-like braid of non-metallic fibers embedded therein and another thin tubular synthetic resin layer having a tubular net-like braid of metallic fibers embedded therein, the superimposed resin layers coaxially covering the flexible core of the flexible tube, and the bendable tube comprises a tubular, knitted net-like braid of crimped synthetic fibers closely enveloping a bendable tubular core and a pliable resin tube closely enveloping the braid, thus providing adequate wall thickness for the flexible tube and the bendable tube while retaining sufficient flexibility and twist-resisting property.
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Description  (OCR text may contain errors)

United States Patent 51 June 20, 1972 Fukami et a1.

[ ENDOSCOPE [72] Inventors: Masaharu Fukami; Toshiyuki Morl, both of Tokyo, Japan [73] Assignee: Olympus Optical Co., Ltd., Tokyo, Japan [22] Filed: Feb. 5, 1970 [21] Appl. No.: 8,776

[52] US. C ..128/6 51 rm. Cl. ..A61b 1/06 [58] Field olSearch ..128/4,5,6, 7,8,9

[56] References Cited UNITED STATES PATENTS 1,995,196 3/1935 Wolf ....l28/7 2,453,862 11/1948 Sausbury ....128l9 2,243,992 6/1941 Wappler ....l28/8 3,256,875 6/1966 Tsepelev et al. ..l28/8 Primary Examiner-Lucie H. Laudenslager AttomeyKelman and Berman ABSTRACT Endoscope having a bendable tube connected to a forward end member adapted to be inserted into a hollow body portion to be inspected and controlled from a control housing and an elongated flexible tube connecting the bendable tube and the control housing. The flexible tube has a thin tubular synthetic resin layer having a tubular net-like braid of non-metallic fibers embedded therein and another thin tubular synthetic resin layer having a tubular net-like braid of metallic fibers embedded therein, the superimposed resin layers coaxially covering the flexible core of the flexible tube, and the bendable tube comprises a tubular, knitted net-like braid of crimped synthetic fibers closely enveloping a bendable tubular core and a pliable resin tube closely enveloping the braid, thus providing adequate wall thickness for the flexible tube and the bendable tube while retaining sufficient flexibility and twistresisting property.

2 Claims, 8 Drawing Figures P'ATENTEnJunzo m2 sum 10F 2 PRIOR ART III I lllllh PATENTED JUN 2 0 12172 SHEET 3 BF 2 g. 6 PRIOR ART M INVENTOR5. 'HQ U FuKa-lh;

QGEA/Tg mnoscorrz BACKGROUND OF THE INVENTION The present invention relates to an endoscope, and more particularly to the novel and useful construction of the elongated flexible tube and the controllably bendable tube connecting the control housing of the endoscope to the forward end member thereof to be inserted into a hollow portion of a living body to be inspected by the endoscope.

An endoscope comprises in general a forward end member connected to a control housing through a controllably bendable tube and an elongated flexible tube. The controllably bendable tube is located adjacent to the forward end member and must have sufficient bendability and also sufi'icient strength against collapsing so that it can be bent in the desired direction and by the desired angle thereby permitting the forward end member to be easily inserted through a passage having complicated curvatures into a hollow portion to be inspected and directed to an object for the proper inspection thereof, while the elongated flexible tube is made yieldable to follow the curvature of the passage but resists twisting.

Optical systems are provided in the forward end member for illuminating the object to an eyepiece in the control housing or photographed by a camera provided in the control housing.

Since the passage through which the forward end member is inserted is relatively thin, the diameter of the forward end member as well as the bendable tube and the flexible tube must be made as small as possible while the inner diameter of the bendable tube and the flexible tube must be as large as possible in order to accomodate the light and the image transmitting optical systems and other elements.

The present invention aims at providing improved flexible and bendable tubes for an endoscope.

SUMMARY OF THE INVENTION An object of the present invention is to provide an endoscope with an elongated flexible tube which is sufficiently flexible but resists twisting while the wall thickness thereof is reduced to a minimum.

Another object of the present invention is to provide an endoscope with a bendable tube of sufficient bendability while the wall thickness thereof is at a minimum.

The above objects are achieved in accordance with the present invention by an elongated flexible tube characterized by a thin tubular synthetic resin layer having a tubular net-like braid made of non-metallic fibers embedded therein and a thin tubular synthetic resin layer having a tubular net-like braid made of metallic fibers embedded therein, the two layers being superimposed and closely enveloping a flexible tubular metallic core member thereby affording sufficient flexibility and twist-resisting property to the elongated flexible tube at minimum wall thickness so that sufficient space is provided in the interior of the elongated flexible tube. The bendable tube has a tubular net-like braid knitted of crimped synthetic fibers and closely enveloping a bendable tubular core, a pliable resin tube being laid closely around the braid to provide sufficient bendability.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. I is a general side view of a conventional endoscope;

FIG. 2 is a fragmentary longitudinal sectional view of the elongated flexible tube'of the endoscope of FIG. 1;

FIG. 3 is a fragmentary longitudinal sectional view of another known flexible tube of an endoscope;

FIG. 4 is a fragmentary longitudinal sectional view of an elongated flexible tube constructed in accordance with the present invention;

FIG. 5 is a fragmentary plan view of the braid used in the tube shown in FIG. 4;

FIG. 6 is a fragmentary side view partly in section showing the construction of the bendable tube of a known endoscope;

FIG. 7 is a fragmentary side view of a bendable tube constructed in accordance with the present invention; and

FIG. 8 is a fragmentary side view shown the procedure of producing the braid used in the bendable tube of FIG. 7.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to FIG. 1 showing a conventional endoscope, the elongated tubular endoscope element has a forward end member 1 connected to control housing 2 through an elongated yieldably flexible tube portion 3 and a controllably bendable tube portion 4. The controllably bendable tube 4 is located adjacent to the forward end member 1 and controlled by an operating handle 5 through connecting means such as strings (not shown) so that the forward end member 1 is directed to the desired direction with respect to an object for the proper inspection thereof.

A viewing window 6 and an illuminating window 7 are provided in the wall of the forward end member I. An elongated light conducting optical system (not shown) extends through the tube 4 and the tube 3 from the illuminating window while the rearward end 8 thereof extends beyond the control housing 2 so as to be connected to an external light source (not shown).

An objective lens and a reflecting prism (not shown) in the forward end member 1 at the viewing window 6 and an image transmitting optical system (not shown) permits an image to be viewed through an eyepiece 9 provided in the control housing 2.

In the prior art construction of the elongated flexible tube 3 shown in FIG. 2, a helically wound thin strip of metal 10 is laid closely around an oppositely helically wound thin strip of metal 11 so as to form the core of the elongated flexible tube 3. A pliable tube 12 made of a material such as polyvinyl chloride resin is laid closely around the helically wound thin strip 10.

FIG. 3 shows another example of a known flexible tube 3 which comprises a helically wound thin strip of metal 1 1 forming the core of the elongated flexible tube 3', a tubular net-like metallic braid l3 closely laid around the strip 11 and a pliable tube 12 laid closely around the braid 13.

The elongated flexible tube 3 of FIG. 2 has a relatively great wall thickness and poor yieldability. The tube 3 of FIG. 3 has also a relatively great wall thickness although the yieldability is slightly improved in comparison with that of the tube 3.

In accordance with the present invention, an elongated flexible tube 3" shown in FIG. 4 comprises a helically wound thin strip of metal ll similar to that shown in FIG. 2. A tubular netlike braid 14 made of non-metallic fibers such as cotton, silk or plastic is laid coaxially around the strip 11, and soft synthetic resin compound is applied to the braid 14 by coating with or dipping in the molten resin compound so as to form a thin resin layer 15 in which the braid 14 is embedded and which engages the strip 1 1.

In the like manner, a tubular metallic braid 16 of piano wires or stainless steel wires is laid closely around the layer 15, and soft synthetic resin compound is applied to the braid 16 by coating or dipping so as to form a thin resin layer 17 in which the braid 16 is embedded.

In a similar manner, a thin resin layer 18 with a braid 19 of non-metallic fibers embedded therein is provided around the resin layer 17.

The number of layers may be increased so as to form the desired thickness of the-wall in which resin layers having embedded braids of non-metallic fibers and the resin layers having the braid of metallic fibers alternate.

FIG. 5 shows an example of the braid used in the present invention.

As to the resin compound, any resin compounds can be used insofar as they have sufficient pliability and are harmless to the living body.

The elongated flexible tube 3" has appropriate flexibility and resiliency as well as sufficient yieldability and twist resistance while its wall thickness is held to a minimum. The longitudinal end of the tube 3" remote from the bendable tube constitutes a terminal portion of the tubular endoscope element which is secured to the control housing 2.

FIG. 6 shows a known bendable tube 4 of an endoscope connected to the forward end member 1. It comprises a tubular core consisting of short tubular segments connected by pivot pins 20a, a pliable tube 21 made of polyvinyl chloride or Neoprene laid closely around the core, a metallic braid 22 of stainless steel or piano wires closely laid around the pliable tube 21 and a pliable outer shell 23 made of an elastomeric material such as polyvinyl chloride or rubber, Therefore, the wall thickness of the tube 4 is relatively great thereby reducing the space utilizable to locate the various elements therein.

In accordance with the present invention, the bendable tube '4' shown in FIG. 7 is provided with a thin wall which affords sufficient bendability and resistance against collapsing and twisting.

The core of the tube 4 consists of a tubular segments 20 joined by pivot pins 20a as in FIG. 6. A tubular braid 24 of knitted crimped synthetic fibers such as nylon fibers is laid closely around the core, and a pliable tube or outer shell 25 made of soft synthetic resin compound closely envelopes the braid 24.

The tube 4 has a relatively small wall thickness while it has sufficient bendability and resistance against collapsing and twisting.

The pliable tube 25 may be formed by dipping the braid 24 in the molten synthetic resin compound or by coating the braid 24 so that the synthetic resin compound is impregnated into the braid 24.

FIG. 8 shows an example of the process for fonning the braid 24. A cylindrical form 26 having an inner diameter greater than the outer diameter of the core in the tube 4' is placed around the core, and the crimped fibers 24a are wound around the form 26 so as to form a net-like structure. Thereafter, the form 26 is withdrawn, thereby permitting the net-like structure of fibers 24a to contract into engagement with the core by the crimping effect or by appropriate heat treatment.

We claim:

1. In an endoscope including a control housing and an elongated tubular element having one longitudinally terminal portion secured to said housing, another longitudinally terminal portion remote from said housing and formed with a viewing window, and a longitudinal, flexible portion intermediate said terminal portions, said intermediate portion having a tubular, flexible, metallic core, the improvement of said intermediate portion which comprises:

a. a first, tubular, synthetic resin layer substantially coaxially engagingly superimposed on said core;

b. a second, tubular, synthetic resin layer substantially coaxially superimposed on said first layer;

c, a first tubular, net-like braid of non-metallic fibers embedded in one of said resin layers; and

d. a second tubular, net-like braid of metal fibers embedded in the other resin layer.

2. In an endoscope as set forth in claim 1, wherein the tubular element has a bendable portion longitudinally intermediate said other longitudinally terminal portion and said flexible portion thereof, the endoscope including operating means on said housing for bending said bendable portion, the bendable portion having a tubular core adapted to be bent by said operating means and an outer shell of elastomeric material, the improvement in said bendable portion which comprises a tubular, net-like braid of crimped synthetic fibers closely enveloping said core and being closely enveloped by said shell.

(SEAL) Attest:

Patent No.

Inventor(s) EDWARD M.FLETCHER ,JR. Attesting; Officer UNITED STATES PATENT OFFICE QERTIFICATE or CGRRECTION 3 670, 721. Dated June 20, 1972 MASAHARU FUKAMI and- TOSHIYUKI MORI is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

In the title page, after line [2l 7 insert Foreign Application Priority Data February 12, 1969, Japan 12,000/1969 Signed and sealed this 3rd day of October 1972.

ROBERT GOTI'SCHALK Commissioner of Patents

Patent Citations
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US2453862 *Jun 2, 1947Nov 16, 1948Salisbury Peter FredericGastroscope
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Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3913565 *Apr 25, 1974Oct 21, 1975Olympus Optical CoGuide tube for a treating instrument to be inserted into body cavity
US3946727 *Jul 11, 1972Mar 30, 1976Olympus Optical Co., Ltd.Flexible tube assembly for an endoscope
US3948251 *May 1, 1975Apr 6, 1976Olympus Optical Co., Ltd.Flexible tube endoscope
US3960143 *Aug 26, 1974Jun 1, 1976Olympus Optical Co., Ltd.Endoscope with a tube for a medical treating instrument
US3998216 *Oct 2, 1974Dec 21, 1976Olympus Optical Co., Ltd.Bending tube for endoscope
US4236509 *Nov 18, 1977Dec 2, 1980Nagashige TakahashiCurving device in an endoscope
US4347837 *Sep 16, 1980Sep 7, 1982Olympus Optical Co., Ltd.Structure for preventing the breakage of end portions of a protective covering for the adjustable bend section of an endoscope
US4606331 *Sep 3, 1985Aug 19, 1986Monghan Medical CorporationElectrode for fiber optic scopes
US4714075 *Feb 10, 1986Dec 22, 1987Welch Allyn, Inc.Biopsy channel for endoscope
US4753222 *Dec 4, 1986Jun 28, 1988Olympus Optical Co., Ltd.Endoscopic flexible tube
US4770188 *May 18, 1982Sep 13, 1988Machida Endoscope Co., Ltd.Guide tube assembly for an endoscope
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US6520214 *Apr 12, 2000Feb 18, 2003Pentax CorporationFlexible tube for endoscope
US6595932Aug 2, 2002Jul 22, 2003Micrus CorporationComposite guidewire
US6887235Mar 19, 2001May 3, 2005Micrus CorporationVariable stiffness heating catheter
US7014616Jul 1, 2003Mar 21, 2006Micrus CorporationComposite guidewire
US7066931Aug 31, 2004Jun 27, 2006Micrus CorporationVariable stiffness heating catheter
US7645275May 12, 2006Jan 12, 2010Micrus CorporationVariable stiffness heating catheter
US7785333Feb 21, 2006Aug 31, 2010Olympus Medical Systems Corp.Overtube and operative procedure via bodily orifice
US8241279Feb 23, 2006Aug 14, 2012Olympus Medical Systems Corp.Overtube and natural opening medical procedures using the same
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US8696551Feb 22, 2008Apr 15, 2014Machida Endoscope Co., Ltd.Flexible endoscope suitable for MRI
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US8728121Jan 3, 2007May 20, 2014Olympus Medical Systems Corp.Puncture needle and medical procedure using puncture needle that is performed via natural orifice
EP0029344A2 *Nov 13, 1980May 27, 1981Olympus Optical Co., Ltd.Flexible tube for an endoscope
EP0359549A1 *Sep 13, 1989Mar 21, 1990Vance Products Incorporated Trading As Cook Urological IncorporatedFlexible cable construction
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EP2116170A1 *Feb 22, 2008Nov 11, 2009Machida Endoscope Co., LtdSoft endoscope mirror for mri
Classifications
U.S. Classification600/140, 273/DIG.500
International ClassificationA61B1/005
Cooperative ClassificationA61B1/0055, Y10S273/05
European ClassificationA61B1/005B6