The disclosure concerns a method for producing an ornamental piece, comprising a step of forming a first, closed ring (32), comprising a step of cutting out a first template comprising a sheet of base material configured to be cut out and pierced, and a step of at least partial winding of the first template with a first set of threads; a step of forming a second, open ring (33), comprising a step of cutting out a second template (43) comprising a sheet of base material configured to be cut out and pierced and a step of partial winding of the second template (43) with a second set of threads (24); a step of intertwining the second ring (33), comprising partial winding of the second template (43) with the first ring (32), comprising at least partial winding of the first template; and a step of closing the second ring (33).

The disclosure concerns a method for producing an ornamental piece, comprising a step of forming a first, closed ring (32), comprising a step of cutting out a first template comprising a sheet of base material configured to be cut out and pierced, and a step of at least partial winding of the first template with a first set of threads; a step of forming a second, open ring (33), comprising a step of cutting out a second template (43) comprising a sheet of base material configured to be cut out and pierced and a step of partial winding of the second template (43) with a second set of threads (24); a step of intertwining the second ring (33), comprising partial winding of the second template (43) with the first ring (32), comprising at least partial winding of the first template; and a step of closing the second ring (33).

A method of making a superelastic medical device with a radiopaque marker includes threading a radiopaque marker having an elongated shape over a wire comprising a shape memory alloy. After the threading, the wire is secured in a predetermined configuration to a mandrel. While secured to the mandrel, the wire is heat set in an environment comprising an inert gas so as to impart a memory of the predetermined configuration to the wire and superelastic properties to the shape memory alloy. A superelastic medical device including the radiopaque marker is thus formed.

A device for coiling an elongated flexible object into a predefined shape includes a length of wire which is formed with a minor winding and a major winding, the minor winding having an axis corresponding to the longitudinal axis of the object and being configured to conform to the cross section of the object, and the major winding being configured to conform to the predefined shape. In use of the device, the minor winding secures the device to the object and the major winding coils the object into the predefined shape.

A device for coiling an elongated flexible object into a predefined shape includes a length of wire which is formed with a minor winding and a major winding, the minor winding having an axis corresponding to the longitudinal axis of the object and being configured to conform to the cross section of the object, and the major winding being configured to conform to the predefined shape. In use of the device, the minor winding secures the device to the object and the major winding coils the object into the predefined shape.

An electric heating wire winding device and a method for manufacturing an electric heating wire element are provided by the present application. The electric heating wire winding device includes a connection assembly, a delivering assembly and a wire winding assembly. The wire winding assembly includes a first clamping component, a second clamping component, a first rotating component, a second rotating component, a first power device, a second power device and a third clamping component. When the electronic wire with the first preset length connected to the free end of the electric heating wire rotates together with the liquid guiding rope and they are moved in an axial direction of the liquid guiding rope away from the first clamping component, the electric heating wire is winded around the liquid guiding rope. The method for manufacturing an electric heating wire element according to the present application improves the working efficiency.

An electric heating wire winding device and a method for manufacturing an electric heating wire element are provided by the present application. The electric heating wire winding device includes a connection assembly, a delivering assembly and a wire winding assembly. The wire winding assembly includes a first clamping component, a second clamping component, a first rotating component, a second rotating component, a first power device, a second power device and a third clamping component. When the electronic wire with the first preset length connected to the free end of the electric heating wire rotates together with the liquid guiding rope and they are moved in an axial direction of the liquid guiding rope away from the first clamping component, the electric heating wire is winded around the liquid guiding rope. The method for manufacturing an electric heating wire element according to the present application improves the working efficiency.

A method of making a superelastic medical device with a radiopaque marker includes threading a radiopaque marker having an elongated shape over a wire comprising a shape memory alloy. After the threading, the wire is secured in a predetermined configuration to a mandrel. While secured to the mandrel, the wire is heat set in an environment comprising an inert gas so as to impart a memory of the predetermined configuration to the wire and superelastic properties to the shape memory alloy. A superelastic medical device including the radiopaque marker is thus formed.

The various implementations described herein include methods used to manufacture a percutaneous port for promoting tissue in-growth around the percutaneous port. In one aspect, the method includes providing a tubular structure having an outer surface and providing a coil having an outer surface and comprised of a plurality of loops. The method further includes joining at least a portion of the outer surface of the coil to the outer surface of the tubular structure.

The various implementations described herein include methods used to manufacture a percutaneous port for promoting tissue in-growth around the percutaneous port. In one aspect, the method includes providing a tubular structure having an outer surface and providing a coil having an outer surface and comprised of a plurality of loops. The method further includes joining at least a portion of the outer surface of the coil to the outer surface of the tubular structure.