Method for manufacturing a flexible tube for an endoscope

US 4,495,134 A
Filed: 11/16/1982
Issued: 01/22/1985
Est. Priority Date: 11/17/1981
Status: Expired due to Term

First Claim

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1. In a method for manufacturing a flexible tube for use in an endoscope, the flexible tube comprising a basic tubular core structure including at least an inner metallic tubular spiral having an outer side and an outer meshwork tube covering the outer side of the metallic tubular spiral, the improvement comprising the steps of:

(a) locating a preformed homogeneous thermoplastic synthetic resin tube over the outer surface of the meshwork tube with a contact pressure therebetween to form an intermediate product by the steps oftemporarily closing the hollow interior of the basic tubular core structure;

positioning a forcibly enlarged open end of the homogeneous thermoplastic synthetic resin tube over one end of the basic tubular core structure;

inflating the thermoplastic synthetic resin tube by supplying compressed gas into the interior thereof until the inner diameter of the inflated termoplastic synthetic resin tube corresponds to the outer diameter of the basic tubular core structure;

feeding the thermoplastic synthetic resin tube axially over the basic tubular core structure;

reducing the internal overpressure in the interior of the thermoplastic synthetic resin tube after a desired length of said thermoplastic synthetic resin tube has been fed over the basic tubular core structurewhereupon a contact pressure exists between the thermoplastic synthetic resin tube and the tubular core structure resulting from the inherent contractive forces tending to restore the synthetic resin tube to its unstressed condition; and

(b) treating the intermediate product so that the thermoplastic synthetic resin of the thermoplastic synthetic resin tube partially flows into the mesh of the meshwork tube by the step ofheating the thermoplastic synthetic resin tube to a temperature higher than a softening point of the thermoplastic synthetic resin forming the same,whereupon the thermoplastic synthetic resin protrudes into the mesh of the meshwork tube and so that upon plasticizing the resin tube forms a coating layer bonded integrally to the basic tubular core structure.

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Abstract

A flexible tube for use in an endoscope comprises a flexible basic tubular core structure and a homogeneous thermoplastic synthetic resin tube bonded to the outer surface of the tubular core structure to form a coating layer by positioning the synthetic resin tube tightly over the basic tubular core structure with a contact pressure therebetween and heating the synthetic resin tube to a temperature higher than a softening point of the thermoplastic synthetic resin forming the same. A flexible tube having flexibility which varies in a step-wise manner from one end of the tube to the other is obtained by integrally bonding as a whole two or more homogeneous thermoplastic synthetic resin tube sections formed of respective resin materials having different hardnesses to the outer surface of the tubular core structure to form a coating layer in an analogous manner. The ends of adjacent tube sections substantially abut each other and upon heating the tube sections to a temperature higher than a softening point of any one of them, the regions of the respective pairs of abutting tube section ends are heated to a temperature substantially near a melting point of the tube section having the higher melting point to successively fuse the respective pairs of abutting tube section ends together.

106 Citations

8 Claims

1. In a method for manufacturing a flexible tube for use in an endoscope, the flexible tube comprising a basic tubular core structure including at least an inner metallic tubular spiral having an outer side and an outer meshwork tube covering the outer side of the metallic tubular spiral, the improvement comprising the steps of:
- (a) locating a preformed homogeneous thermoplastic synthetic resin tube over the outer surface of the meshwork tube with a contact pressure therebetween to form an intermediate product by the steps oftemporarily closing the hollow interior of the basic tubular core structure;
  
  positioning a forcibly enlarged open end of the homogeneous thermoplastic synthetic resin tube over one end of the basic tubular core structure;
  
  inflating the thermoplastic synthetic resin tube by supplying compressed gas into the interior thereof until the inner diameter of the inflated termoplastic synthetic resin tube corresponds to the outer diameter of the basic tubular core structure;
  
  feeding the thermoplastic synthetic resin tube axially over the basic tubular core structure;
  
  reducing the internal overpressure in the interior of the thermoplastic synthetic resin tube after a desired length of said thermoplastic synthetic resin tube has been fed over the basic tubular core structurewhereupon a contact pressure exists between the thermoplastic synthetic resin tube and the tubular core structure resulting from the inherent contractive forces tending to restore the synthetic resin tube to its unstressed condition; and
  
  (b) treating the intermediate product so that the thermoplastic synthetic resin of the thermoplastic synthetic resin tube partially flows into the mesh of the meshwork tube by the step ofheating the thermoplastic synthetic resin tube to a temperature higher than a softening point of the thermoplastic synthetic resin forming the same,whereupon the thermoplastic synthetic resin protrudes into the mesh of the meshwork tube and so that upon plasticizing the resin tube forms a coating layer bonded integrally to the basic tubular core structure.
- View Dependent Claims (2, 3)
- - 2. A method according to claim 1 wherein the basic tubular core structure comprises a multi-layered structure including a clockwise extending metallic tubular spiral and a counterclockwise extending metallic tubular spiral.
  - 3. A method according to claim 1 wherein the basic tubular core structure comprises a multi-layered construction of metallic tubular spirals and meshwork tubes alternately covering one another.

4. In a method for manufacturing a flexible tube for use in an endoscope, the flexible tube comprising a basic tubular core structure including at least an inner metallic tubular spiral having an outer side and an outer meshwork tube covering the outer side of the metallic tubular spiral, the improvement comprising the steps of:
- (a) locating a preformed homogeneous thermoplastic synthetic resin tube over the outer surface of the meshwork tube with a contact pressure therebetween to form an intermediate product by the steps oftemporarily closing the hollow interior of the tubular core structure;
  
  releasably fixing an open end of a homogeneous thermoplastic synthetic resin tube on one end of the basic tubular core structure;
  
  inflating the thermoplastic synthetic resin tube by supplying compressed gas into the interior thereof;
  
  rolling back the thermoplastic synthetic resin tube progressively from the releasably fixed end thereof to develop the synthetic resin tube axially along the basic tubular core structure so that the originally outer surface of the synthetic resin tube is positioned over the outer surface of the basic tubular core structure;
  
  reducing the internal overpressure in the interior of the thermoplastic synthetic resin tube after completing said development of the synthetic resin tube along the basic tubular core structure to thereby tightly position the synthetic resin tube over the outer surface of the basic tubular core structure with a contact pressure therebetween; and
  
  (b) treating the intermediate product so that the thermoplastic synthetic resin of the resin tube partially flows into the mesh of the meshwork tube by the step ofheating the thermoplastic synthetic resin tube to a temperature higher than a softening point of the thermoplastic synthetic resin forming the same,whereupon the thermoplastic synthetic resin protrudes into the mesh of the meshwork tube and so that upon plasticizing the resin tube forms a coating layer bonded integrally to the outer surface of the basic tubular core structure.
- View Dependent Claims (5, 6)
- - 5. A method according to claim 4 wherein the basic tubular core structure comprises a multi-layered structure including a clockwise extending metallic tubular spiral and a counter-clockwise extending metallic tubular spiral.
  - 6. A method according to claim 4 wherein the basic tubular core structure comprises a multi-layered construction of metallic tubular spirals and meshwork tubes alternately covering one another.

7. A method for manufacturing a flexible tube for use in an endoscope, the flexible tube having a flexibility which varies over its length comprising a basic tubular core structure including at least an inner metallic tubular spiral having an outer side and an outer meshwork tube covering the outer side of the metallic tubular spiral, comprising the steps of:
- successively positioning at least two synthetic resin tube sections formed of resin material having mutually different flexibility tightly over a basic tubular core structure with a contact pressure therebetween and with adjacent tube sections substantially abutting at respective ends to form an intermediate product;
  
  treating the intermediate product so that the thermoplastic resins of the tube sections partially flow into the mesh of the meshwork tube by heating said tube sections to a temperature higher than a softening point of any one of said thermoplastic synthetic resin tube sections; and
  
  heating the intermediate product at least in the regions of respective pairs of abutting tube section ends to a temperature substantially near a melting point of the tube section having the higher melting point to successively fuse the respective pairs of abutting tube section ends together,whereby the flexible tube has a flexibility which varies from one end thereof to the other.
- View Dependent Claims (8)
- - 8. A method as recited in claim 7 wherein each of said thermoplastic synthetic resin tube sections has a uniform inner diameter and a wall thickness which is thicker at one end of said tube section than at the other end thereof so that the outer diameter of said tube sections is greater at said one end of said tube section than at said other end thereof, and wherein adjacent tube sections abut at respective ends having substantially the same outer diameter.

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Current Assignee
Asahi Kogaku Kogyo Kabushiki Kaisha
Original Assignee
Kabushiki Kaisha Medos Kenkyusho
Inventors
Ouchi, Teruo, Shibuya, Hiromichi
Primary Examiner(s)
Silbaugh, Jan
Assistant Examiner(s)
Lorin, Hubert C.

Application Number

US06/441,998
Time in Patent Office

798 Days
Field of Search

264/512, 264/514, 264/515, 264/516, 264/573, 264/230, 264/248, 264/254, 264/273
US Class Current

264/516
CPC Class Codes

A61B 1/0055   Constructional details of i...

A61M 25/0012   with embedded structures, e...

B29C 63/18   using tubular layers or she...

B29L 2023/007   Medical tubes other than ca...

Method for manufacturing a flexible tube for an endoscope

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

106 Citations

8 Claims

Specification

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Method for manufacturing a flexible tube for an endoscope

First Claim

2 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

106 Citations

8 Claims

Specification

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Use Cases

Quick Links

Others