An undermold coupling to couple a hose to a hose fitting includes: a tubular portion to be inserted into a hose interface of the hose fitting; threads formed on an inner surface of the tubular portion to engage a support helix on an end of the hose as a set of threads; and a first grating comprising a first plurality of elongate portions to intermesh with a corresponding second plurality of elongate portions of a second grating of the hose interface, wherein the first plurality of elongate portions extend into a second plurality of slots defined by the second plurality of elongate portions, and the second plurality of elongate portions extend into a first plurality of slots defined by the first plurality of elongate portions.

Provided are a method for producing a tank with an outer surface profile that allows a thin label to be easily and firmly attached to a surface thereof, and also such a tank. The method for producing the tank, which includes winding fiber bundles containing an uncured resin component in multiple layers around the outer surface of a liner in a first pitch width so as to form a fiber reinforced resin layer, further includes: winding fiber bundles in a second pitch width wider than the first pitch width so as to form a gap with a required width where no fiber bundle is present between adjacent fiber bundles in winding the fiber bundles to form an outermost layer; shaving off a tip end portion of a projection made of a resin that has cured after bleeding into the gap, with a portion of the projection in a predetermined height left unshaved; and attaching a label to a surface obtained through shaving off the tip end portion.

Provided are a method for producing a tank with an outer surface profile that allows a thin label to be easily and firmly attached to a surface thereof, and also such a tank. The method for producing the tank, which includes winding fiber bundles containing an uncured resin component in multiple layers around the outer surface of a liner in a first pitch width so as to form a fiber reinforced resin layer, further includes: winding fiber bundles in a second pitch width wider than the first pitch width so as to form a gap with a required width where no fiber bundle is present between adjacent fiber bundles in winding the fiber bundles to form an outermost layer; shaving off a tip end portion of a projection made of a resin that has cured after bleeding into the gap, with a portion of the projection in a predetermined height left unshaved; and attaching a label to a surface obtained through shaving off the tip end portion.

A machine for filament winding, in particular on a liner for the manufacture of tanks, comprising a displacement system able to drive a body in rotation around its longitudinal axis (A) and to effect a relative displacement of the body with respect to winding means. The winding means comprise a rotating support, mounted so as to rotate around a rotation axis (B), on which are mounted at least two winding systems, each winding system comprising a winding head associated with storage means, so that, by rotation of said rotating support around its rotation axis (B), each winding system can be displaced into an active position for winding fiber via its winding head, and an inactive position in which an operator can perform maintenance operations.

Plastic tubing including a thermoplastic ribbon helically wrapped and heat bonded to itself to form a tubing wall and a thermoplastic reinforcement located helically around and along the tubing wall. At least a thickness of the tubing wall or a size of the thermoplastic reinforcement is varied along the tubing wall.

An object is to control the position of a fiber bundle on a roller of a guide assembly in a filament winding apparatus. There is provided a filament winding apparatus that winds a fiber bundle consisting of a plurality of fibers on an outer surface of a liner and comprises a fiber feeder configured to feed the fiber bundle; and a guide assembly including a roller configured to guide the fiber bundle fed by the fiber feeder to the outer surface of the liner while making the fiber bundle in contact with the roller. The roller comprises a suction hole configured to suck the outside air and is provided in at least a surface of the roller that is to be in contact with the fiber bundle; and a suction unit configured to suck the outside air from the suction hole with such a suction force that draws the fiber bundle in contact with the roller.

An object is to control the position of a fiber bundle on a roller of a guide assembly in a filament winding apparatus. There is provided a filament winding apparatus that winds a fiber bundle consisting of a plurality of fibers on an outer surface of a liner and comprises a fiber feeder configured to feed the fiber bundle; and a guide assembly including a roller configured to guide the fiber bundle fed by the fiber feeder to the outer surface of the liner while making the fiber bundle in contact with the roller. The roller comprises a suction hole configured to suck the outside air and is provided in at least a surface of the roller that is to be in contact with the fiber bundle; and a suction unit configured to suck the outside air from the suction hole with such a suction force that draws the fiber bundle in contact with the roller.

A plastic tube has an inner tube, a stiffener layer, and an outer tube. The inner tube is arranged the support organ. A corrugated stiffener preform is formed with corner area walls shaped thinner than the other walls. The preform is fed upon the inner tube to form a stiffener layer that advances with a certain pitch upon the inner tube. The corner parts of every stiffener yield and the brush angle () between the lamellas of the outside gets greater than the corresponding brush angle between the lamellas of the inner side. The stiffener is joined to the inner tube with a melted plastic layer and fed upon the stiffener plastic tape joined to the stiffener with a melted plastic layer. Between the settled edges of the plastic tape a spiral weld joint is formed so that the plastic tape forms the outer tube.

A plastic tube has an inner tube, a stiffener layer, and an outer tube. The inner tube is arranged the support organ. A corrugated stiffener preform is formed with corner area walls shaped thinner than the other walls. The preform is fed upon the inner tube to form a stiffener layer that advances with a certain pitch upon the inner tube. The corner parts of every stiffener yield and the brush angle () between the lamellas of the outside gets greater than the corresponding brush angle between the lamellas of the inner side. The stiffener is joined to the inner tube with a melted plastic layer and fed upon the stiffener plastic tape joined to the stiffener with a melted plastic layer. Between the settled edges of the plastic tape a spiral weld joint is formed so that the plastic tape forms the outer tube.

A method of manufacture of a product from a composite material is described, the method including winding a material onto a mandrel, monitoring the material, as it is wound onto the mandrel, to ascertain at least one dimension of the material being wound, and monitoring the mandrel as the material is wound thereon to ascertain the weight of the material being wound, and controlling the winding of the material onto the mandrel to take into account variations in the material being wound using the at least one dimension and the weight values derived during the monitoring. An apparatus suitable for use in the method is also described.