摘要:
A connecting structure of the guide wire used for medical treatment herein consisting of a corrugated tube attached to a main guide wire or an extension wire and a straight bar part formed at the end of said extension wire of said main guide wire wherein said straight bar part is inserted into said corrugated tube to fix elastic deformation resistance produced by both of said corrugated tube and said straight bar part. Said connecting structure of the guide wire can be easily and precisely formed and is not disconnected by the force produced in use but can be disconnected when changed.
摘要:
There is disclosed a treatment device for an endoscope, comprising a treatment portion in which an operation wire is forward/backward moveably inserted into a main tube of an elongated flexible tube to be inserted into a body, a tip end of the operation wire forms a loop for treatment by itself in a projection state from the main tube, and the loop is adapted to be retractable and storable in the main tube, wherein the treatment portion is formed with a wire rope obtained by integrally intertwining a plurality of side strand wires with a core strand wire, and spiral convex or concave portions continuously disposed along the outer periphery of the wire rope are formed with the side strand wires.
摘要:
In a medical guide wire 1, a flexible core wire 2 is made of austenitic stainless steel wire treated with a solid solution procedure, and drawn with a whole cross sectional reduction ratio as 80%-97.6%. The core wire 2 and a helical spring body 3 are welded by a welding member 4. The welding member 4 is made of eutectic alloy having a melting temperature ranging from 180° C.-495° C. Upon welding the helical spring body 3 to the core wire 2 which is made of the stainless steel metal, the procedure prevents the medical guide wire 1 from sacrificing its mechanical strength by significantly reducing the thermal influence on the core wire 2 and the helical spring body 3.
摘要:
In a heat mold device 1 for a guide wire 9, the metallic mold body 2 is made from the material, the thermal expansional coefficient of which is the same of a metallic coiled wire 91 to stabilize a shape-forming configuration 94. A plurality of the mold bodies 2 are arranged in a mold frame 6A to make the reverse side 22 of one mold body 2 tightly contact with the obverse side 21 of other mold body 2 among the neighboring mold bodies 2. A jig arm 7A sandwiches an array of metallic mold bodies 2 and the side plate 63 to serve as a securement member 7. Upon manufacturing the guide wire 9 well-suited to the medical field, the heat mold device 1 renders it possible to make a high quality guide wire with a high productivity.
摘要:
In a method of making a guide wire 1 by using a heat mold device 1, the metallic mold body 2 is made from the material, the thermal expansional coefficient of which is the same of a metallic coiled wire 91 to stabilize a shape-forming configuration 94. A plurality of the mold bodies 2 are arranged in a mold frame 6A to make the reverse side 22 of one mold body 2 tightly contact with the obverse side 21 of other mold body 2 among the neighboring mold bodies 2. A jig arm 7A sandwiches an array of metallic mold bodies 2 and the side plate 63 to serve as a securement member 7. Upon manufacturing the guide wire 9 for use in the medical field, the method of making the heat mold device 1 contributes to producing a high quality guide wire with a high productivity.
摘要:
In a medical guide wire, a core line securement portion (11) is provided in which the core wire (2) is fixed to an inner side of the helical coil body (3) so as to form a top leading end portion (10) between the core line securement (11) and the head plug (4). A flat plane structure (13) is formed in which the core wire (2) of the top leading end portion (10) gradually changes through stepped portions (S) so that the core wire (2) progressively reduces its thickness stepwisely while successively increasing its breadth stepwisely as approaching a foremost distal end of the top leading end portion (10). This provides an improved flexibility, sensitivity, torsibility and torque transmissibility with the flat plane structure (13) so as to be accessible to the diseased area with a high detective and ablative ability.
摘要:
A medical guide wire which is to ensure a good maneuverability when inserting its front end portion into blood vessels while turning the front end portion around its axis so as to provide an improved remedial treatment with patients. For this purpose, a core elongation has a torsional rigidity coefficient of 16 or less in terms of K ×103. A helical spring has a helical diameter-to-line diameter ratio in the range of 2.5˜3.5. Where the torsional rigidity coefficient is a divided value of (a maximum torsional stress based on a torsional moment to which the core member is subjected)/(the torsional moment to which the core member is subjected). The helical diameter-to-line diameter ratio is a value of (a mean value of outer and inner diameters of the helical spring)/(a line element diameter of the helical spring).
摘要:
In a medical guide wire 1, a flexible core wire 2 is made of austenitic stainless steel wire treated with a solid solution procedure, and drawn with a whole cross sectional reduction ratio as 90%-97.6%. Each time when the core wire 2 is subjected to a series of mechanical procedures, the core wire 2 is heat treated repetitively at low temperature subsequent to the mechanical procedures to improve a tensile strength characteristic of the core wire 2. The core wire 2 is twisted under the low heat treatment. Effectively used is a heat generated from a synthetic layer 6 when coating the layer 6 on the helical spring body 3. This makes it possible to increase the characteristic of the tensile strength of the core wire 2 with its thermal conductivity taken into consideration. Upon improving the tensile strength of the core wire 2, optimal conditions are achieved by observing a relationship between the tensile strength and the temperature which the core wire 2 exhibits when tightly drawn as a wrought-out procedure.
摘要:
A medical guide wire (1) has a helical spring body (3), a distal end portion of which has a radiopaque helical portion (31), and an elongate core (2) placed within the helical spring body (3). The elongate core (2) has a distal end portion (21) diametrically thinned and having a proximal end portion (22) diametrically thickened. A securement portion (10) is provided in which the distal end of the helical spring body (3) and the distal end of the elongate core (2) are air-tightly bonded. A floatage chamber (5) is formed within the radiopaque helical portion (31). A synthetic resin layer (4) coated on an outer surface of the helical spring body (3) forms a cylindrical film (43) at a clearance (C) between neighboring coil lines of the helical spring body (3) in a condition that an outer diameter of the cylindrical film (43) is smaller than that of the helical spring body (3) when expanding the helical spring body (3) in the moistened condition, thus enabling an operator to a deep insertion against a blood vessel due to a buoyance and an increased pressure resistance caused by blood streams.
摘要:
A wire-stranded hollow coil body (1) has a multitude of coil line elements (2) stranded along a predetermined circular line to form a flexible wire tube having a central axial hollow portion (3), the flexible wire tube is stranded under a strand-turn resistant load and heat treated to remove a residual stress upon formation so as to provide a high rotation-following capability and a high straightness. Further, a method provides a way to strand the coil line elements (2) under a strand-turn resistant load while heat treating the coil line elements (2).