ENDOSCOPE COMPRISING A FLEXIBLE INSERTION TUBE AND A BENDING PORTION

Abstract

An endoscope includes a flexible insertion tube and a bending portion controllable from a proximal side and being distally connected to the insertion tube. The bending portion includes a sleeve in which at least one pull rope runs for a pivoting movement of the bending portion, wherein the at least one pull rope is anchored to the distal end of the bending portion. A separating element dividing the cross-section of the sleeve into at least two separate chambers is arranged in the longitudinal direction of the sleeve. In one of the at least two chambers separated by the separating element, a pull rope of the at least one pull rope is arranged in the longitudinal direction of the sleeve for pivoting movement of the bending portion.

Claims

1. An endoscope comprising: a flexible insertion tube, and a bending portion controllable from a proximal side, the bending portion being distally connected to the insertion tube, wherein the bending portion has a sleeve with at least one pull rope extending therein for a pivoting movement of the bending portion, the at least one pull rope being anchored at the distal end of the bending portion, characterized in that in the longitudinal direction of the sleeve a separating element is arranged for dividing the cross-section of the sleeve into at least two separate chambers, and in one of the at least two chambers separated by the separating element a pull rope of the at least one pull rope is arranged in the longitudinal direction of the sleeve for a pivoting movement of the bending portion.

2. The endoscope according to claim 1, wherein in each of the at least two chambers, separated by the separating element a pull rope of the at least one pull rope is arranged in the longitudinal direction of the sleeve for a pivoting movement of the bending portion.

3. The endoscope according to claim 1, wherein the separating element is arranged within the sleeve so that the separating element divides the cross-section of the sleeve in to two separated chambers of the same size.

4. The endoscope according to claim 1, wherein the separating element is anchored at its proximal side to the distal end region of the insertion tube.

5. The endoscope according to claim 4, wherein the insertion tube includes an outer cover and, beneath the outer cover, an elastic wire mesh, the proximal side of the separating element being anchored to the distal end region of the wire mesh.

6. The endoscope according to claim 5, wherein the proximal side of the separating element is inserted at the distal end region of the wire mesh.

7. The endoscope according to claim 5, wherein the proximal side of the separating element is welded to or glued into the distal end region of the wire mesh.

8. The endoscope according to claim 1, wherein the sleeve of the bending portion has an outer diameter of 3 mm or less.

9. The endoscope according to claim 1, wherein the sleeve of the bending portion has an outer diameter of 1 mm or less.

10. The endoscope according to claim 1, wherein the separating element is manufactured from spring steel, stainless steel or any bendable plastic material.

11. The endoscope according to claim 1, wherein the separating element is manufactured from different materials having different flexural properties, wherein the different materials are arranged in the separating element so that they ensure a preferred bending direction of the separating element.

12. The endoscope according to claim 1, wherein the sleeve of the bending portion includes a spring element.

13. The endoscope according to claim 12, wherein the spring element is embedded in the sleeve of the bending portion.

14. The endoscope according to claim 1, wherein the cross-section of the separating element is configured so that the cross-section of the separating element is wider in a first direction and is narrower in a second direction being perpendicular to the first direction.

Description

BRIEF DESCRIPTION OF THE DRAWING

[0027] FIG. 1 shows a schematic side view of a distal region of an endoscope according to the invention.

[0028] FIG. 2 shows a schematic side view of the interior of the bending portion in a first embodiment.

[0029] FIG. 3 shows a schematic top view onto a flexible plate of the first embodiment.

[0030] FIG. 4 shows how the flexible plate of the first embodiment is inserted in an insertion tube. In particular, FIG. 4A shows a schematic top view, FIG. 4B shows a schematic side view and FIG. 4C shows a schematic perspective view.

[0031] FIG. 5 shows a schematic sectional view across the bending portion of the first embodiment.

[0032] FIG. 6 shows a schematic side view of a sleeve of the bending portion in a second embodiment.

[0033] FIG. 7 shows a schematic perspective view of the spring element of the second embodiment.

[0034] FIG. 8 shows a schematic sectional view across the sleeve of the second embodiment.

[0035] In the following, the present invention is described in detail with reference to the drawings on the basis of embodiments. The representations in the drawings are not necessarily true-to-scale, but are sometimes shown distorted for reasons of better clarity.

First Embodiment

[0036] Below, a first embodiment of the present invention is described with reference to FIGS. 1 to 5.

[0037] An endoscope 1 according to the invention includes an insertion tube 2, a bending portion 3 and a distal end 4 on the distal side of a control member (not shown).

[0038] FIG. 1 illustrates a schematic side view of the distal region of the endoscope 1 according to the invention. On the distal side of the insertion tube 2, the bending portion 3 is disposed. On the distal side of the bending portion 3, the distal end 4 is disposed.

Insertion Tube 2

[0039] The insertion tube 2 is elastic and serves for being inserted, with the distal end 4 ahead, into a patient for the purpose of examination. The insertion tube 2 is bendable so that it is capable of following the bent openings of the body into which it is inserted. The insertion tube 2 is also sufficiently stiff and torsion-resistant so that it can be pushed forward past bends of the body openings. The insertion tube 2 includes a cover 21 on the outside and a wire mesh 22 preferably on the inside of the cover 21. The cover 21 protects the interior of the insertion tube 2. The wire mesh 22 imparts the required flexibility, stiffness and torsion resistance to the insertion tube 2.

Bending Portion 3

[0040] The bending portion 3 is located at the distal end of the insertion tube 2. The longitudinal direction of the bending portion 3 corresponds to the extension direction of the endoscope 1. The bending portion 3 is pivotable relative to the insertion tube 2. In order to realize the pivotability, pull ropes 11 fastened to the distal end 4 are guided in the bending portion 3. In the embodiment, two pull ropes 11 are provided. Pulling a pull rope 11 in the proximal direction causes the distance between the distal end of the insertion tube 2 and the distal end 4 at the radial side of the bending portion 3 where the pulled rope 11 is located to be reduced.

[0041] In the bending portion 3, an elastic sleeve 10 extends from the distal end of the insertion tube 2 to the distal end 4. The elastic sleeve 10 can be regarded as being a continuation of the cover 21 of the insertion tube 2 in the distal direction.

Separating Element 30

[0042] In the bending portion 3, a flat flexible plate 30 serving as a bendable plate is arranged as separating element. FIG. 3 illustrates an example of the flexible plate 30. In the top view, the flexible plate 30 takes the shape of an elongate rectangle. Moreover, the cross-section of the flexible plate 30 is in the form of a rectangle. In the top view of FIG. 3, the flexible plate 30 is bendable toward the viewer and away from the viewer.

[0043] The flexible plate 30 has a narrower proximal portion 36 and a wider distal portion 35. The proximal portion 36 has a shorter width than the distal portion 35.

[0044] The proximal portion 36 is inserted into the wire mesh 22 of the insertion tube 2 from the distal side. When inserting the flexible plate 30 into the wire mesh 22, the wider distal portion 35 can be used as a stop up to which the flexible plate 30 is inserted into the wire mesh 22. The length of the flexible plate 30 protruding from the wire mesh 22 is predefined in this way.

[0045] The proximal portion 36 may also be welded to or glued into or otherwise fastened to the wire mesh 22. Thus, the distal portion 35 of the flexible plate 30 protrudes from the wire mesh 22 of the insertion tube 2 in the distal direction.

[0046] The sleeve 10 is drawn over the flexible plate 30. Accordingly, the outer edges of the distal portion 35 press into the elastic inner circumferential surface of the sleeve 10 so that the interior of the sleeve 10 is divided, in cross-section, into a first chamber 31 and a second chamber 32. In other words, the flexible plate 30 divides the interior of the sleeve 10. Each of the first chamber 31 and the second chamber 32 is delimited at the periphery by the inner peripheral surface of the sleeve 10 and the flexible plate 30.

[0047] The first chamber 31 and the second chamber 32 extend in the longitudinal direction of the sleeve 10 from the distal end of the insertion tube 2 to the distal end 4. In the embodiment, the distal end of the flexible plate 30 is spaced apart from the proximal surface of the distal end 4, see FIG. 2. Alternatively, the distal end of the flexible plate 30 may abut on the proximal surface of the distal end 4 or be anchored to the distal end 4.

[0048] The first chamber 31 and the second chamber 32 are thus separated from each other by the flexible plate 30. Preferably, the first chamber 31 and the second chamber 32 have the same cross-sectional size. Hence, the flexible plate 30 divides the interior of the sleeve 10 into two equal halves. As an alternative, the flexible plate 30 can divide the interior of the sleeve 10 into two unequal halves so that the first chamber 31 and the second chamber 32 then have an unequal cross-sectional size.

[0049] In the first chamber 31, a pull rope 11, a camera cable 12 and a light conductor 13 are arranged in the longitudinal direction of the bending portion 3 so that they extend in parallel to the axis of the bending portion 3, see FIG. 5.

[0050] The flexible plate 30 is bendable and may be manufactured from spring steel, stainless steel or a bendable plastic material. Despite being bendable, the flexible plate 30 is neither compressible nor expandable. The flexible plate 30 thus has a function similar to that of a spinal column.

Distal End 4

[0051] The distal end 4 may act as an endoscope head. In the distal end 4, the pull ropes 11 are anchored. On the distal side of the distal end 4, an optical system (not shown) and a camera (not shown) are disposed. The optical system is connected to the light conductor 13 and ensures illumination of a scenery to be viewed. The camera is connected to the camera cable 12 and takes pictures of the illuminated scenery.

[0052] The sleeve 10 may abut on the distal end 4 or, alternatively, cover the outer peripheral side of the distal end 4.

[0053] The endoscope 1 according to the invention may be very small. The outer diameter of the insertion tube 2, of the sleeve 10 of the bending portion 3 and of the distal end 4 may be 3 mm or less. In an even smaller design, the outer diameter of the insertion tube 2, of the sleeve 10 of the bending portion 3 and of the distal end 4 may even be 2 or 1 mm or less.

Function of the Invention

[0054] By pulling either of the two pull ropes 11 in the proximal direction, the distance between the distal end of the insertion tube 2 and the distal end 4 is reduced. When the pull rope 11 disposed in the first chamber 31 is pulled, the flexible plate 30 is bent toward the side and, therefore, the bending portion 3 pivots to the side of the first chamber 31 (downwards in FIG. 5). When the pull rope 11 disposed in the second chamber 32 is pulled, the flexible plate 30 is bent toward the other side and, therefore, the bending portion 3 pivots to the side of the second chamber 3 (upwards in FIG. 5). Each of the first chamber 31 and the second chamber 32 acts as a pull rope duct for the pull rope 11 arranged in the same.

[0055] The bending portion 3 shows a very simple design, makes use of few components and, therefore, can be manufactured at very low cost.

[0056] The bending portion 3 requires no eyelets as a rope guide. This is particularly advantageous for thin insertion tubes, because no cavity must be made available for the eyelets. The separating element 30 provided as flexible plate in the first embodiment divides the interior of the bending portion 3 into the two chambers 31 and 32. Each of the two chambers 31 and 32 serves as rope guide for the respective pull rope 11. Consequently, the pull ropes 11 do not impair each other and nevertheless are safely guided.

[0057] Thus, the bending portion 3 according to the invention can be used for an endoscope comprising a very small insertion tube.

Second Embodiment

[0058] In the following, a second embodiment of the present invention is described with reference to the FIGS. 6 to 8.

[0059] In the second embodiment, in the sleeve 10 of the first embodiment a spring element 18 is arranged. Otherwise, the structure of the second embodiment resembles that of the first embodiment.

[0060] FIG. 6 illustrates a schematic side view of the sleeve 10 of a bending portion 3 of the second embodiment. For reasons of better clarity, the pull ropes 11 and the bendable plate 30 are not shown, nor are the camera cable 12 and the light conductor 13 represented.

[0061] In order to impart advantageous bendability to the sleeve 10, a spring element 18 shown in FIG. 7 is embedded in the interior of the sleeve 10. In FIG. 8, the position of the spring element 18 is indicated in the cross-section of the sleeve 10 of the second embodiment.

[0062] The sleeve 10 of the second embodiment can be manufactured so that plastic material is injection-molded or extruded onto the spring element 18 such that the spring element 18 is sandwiched between the inner circumferential surface and the outer circumferential surface of the sleeve 10 made from the plastic material.

[0063] The sleeve 10 of the second embodiment may thus be configured to be bendable but also stiff and torsion-resistant.

[0064] Moreover, the same advantages are resulting as in the first embodiment.

Further Alternatives

[0065] In one alternative, a pull rope 11 can be disposed in only one of the two chambers 31, 32. The pull rope in the other chamber of the two chambers 31, 32 is omitted. In this way, a deflecting movement of the bending portion 3 in one direction can be achieved by pulling the one pull rope 11. When the pull rope 11 is relieved, the bending portion 3 adopts its stretched initial position again. In doing so, even more space can be obtained, because the space obtained by the omitted pull rope is available.

[0066] In the second embodiment, a spring element 18 is interposed between the inner peripheral surface and the outer peripheral surface of the sleeve 10. In one alternative, a spring element may be disposed on the inner peripheral surface of the sleeve 10 to impart a desired elasticity and bending stiffness to the sleeve 10.

[0067] In the first embodiment, the elastic sleeve 10 of the bending portion 3 forms a continuation of the cover 21 of the insertion tube 2 in the distal direction. In one alternative, the elastic sleeve 10 and the cover 21 can be a one-piece cover extending from the control member of the endoscope to the distal end 4.

[0068] In the first embodiment, the flexible plate 30 is in the form of an elongate rectangle. The flexible plate 30 may also take other shapes. The cross-section of the bendable plate 30 may take a rectangular, oval, elliptic or race-track shape etc. The race-track shape (or stadium shape) has linear segments inserted between semicircular-type end pieces.

[0069] In the embodiments, the separating element is in the form of a flexible or bendable plate. The invention is not limited thereto. The separating element may also be produced as a partition already when the sleeve 10 is manufactured by extrusion, for example. In this case, the separating element is integrally connected to the sleeve 10.

[0070] In another alternative, the separating element may be configured as an element cross-shaped in cross-section that divides the interior space of the sleeve 10 into four separate chambers. Further, a separating element dividing the interior space of the sleeve 10 into three or five separate chambers may be provided. Consequently, separating elements that produce any number of chambers in the longitudinal direction of the sleeve 10 can be used. A pull rope can run in each of said chambers. Moreover, when plural chambers separated by a separating element are provided, at least one chamber can be equipped without a pull rope.

[0071] In the embodiments, both the optical system including the light conductor 13 and the camera including the camera cable 12 merely constitute examples of use in the endoscope according to the invention and may be modified or even be omitted.

[0072] In the embodiments, the separating element can be manufactured from spring steel, stainless steel or a flexible plastic material. In one alternative, the separating element can be made from different materials having different bending properties. Accordingly, the different materials can be arranged in the separating element such that they ensure a preferred bending direction of the separating element. For example, the separating element as a central member can be a bendable metal plate. Said metal plate includes an upper surface and a lower surface and is bendable toward each of the upper and lower surfaces. On the upper surface and/or the lower surface, the metal plate is coated with a different elastic material such as rubber or plastic material. The metal plate is thus bendable toward the respective coating side.

[0073] As an alternative, when the invention is applied to a larger endoscope, a working duct, a rinsing duct and/or an ultrasonic sensor etc. can be installed.

[0074] The invention can be advantageously applied to a flexible endoscope. The principle of the invention can be applied to any type of endoscope comprising a bending portion.

LIST OF REFERENCE NUMERALS

[0075] 1 endoscope [0076] 2 insertion tube [0077] 3 bending portion [0078] 4 distal end [0079] 10 sleeve [0080] 11 pull rope [0081] 12 camera cable [0082] 13 light conductor [0083] 18 spring element [0084] 21 cover [0085] 22 wire mesh [0086] 30 separating element [0087] 31 first chamber [0088] 32 second chamber [0089] 35 distal portion of bendable plate [0090] 36 proximal portion of bendable plate