A Method and Apparatus for Inserting Elongate Elements into a Sleeve

1 . A method of inserting elongate elements positioned in end-to-end relationship into a continuous resilient flexible sleeve comprising a wall that extends around and partially encloses said elongate elements to hold them in position within the sleeve when inserted therein, the wall having a longitudinally extending opening configured to enable a user to make contact with elongate elements held by said sleeve through said opening to push them along the sleeve towards, and out of, one end of the sleeve, the insertion method comprising: continuously feeding the sleeve over a member that deforms a region of the sleeve to enlarge the opening and simultaneously feeding a continuous length of elongate elements positioned in end-to-end relationship into the sleeve through the enlarged opening in said region. 2 . The method of claim 1 , wherein said member that deforms a region of the sleeve to enlarge the opening comprises an arcuately-shaped former and the method includes passing the sleeve around a portion of said former so that it follows an arcuate path to thereby cause the opening in the sleeve to widen. 3 . The method of claim 2 , wherein the method includes passing the sleeve around the former with its opening facing radially away from the longitudinal axis of the former so that the opening in the sleeve is widened. 4 . The method of claim 2 , further including the step of maintaining the deformation in a region of the sleeve beyond a point at which it stops following an arcuate path around the former. 5 . The method of claim 4 , wherein the step of maintaining deformation in a region of the sleeve comprises passing it between a support plate and a sleeve retaining plate to prevent release of the deformation and return of the region of the sleeve to its original non-deformed configuration. 6 . The method of claim 1 , including the step of feeding the sleeve and the elongate elements contained within the sleeve through a garniture, positioned downstream of said member, to close the sleeve around the elongate elements. 7 . The method of claim 1 , including the step of releasing the sleeve so that it closes around the elongate elements contained within the sleeve due to its own resilience downstream of said member. 8 . The method of claim 1 , comprising the step of applying heat to the sleeve to soften it prior to deformation and/or to facilitate closing of the sleeve around the elongate elements. 9 . The method of claim 1 , wherein the feeding of elongate elements includes arranging a continuous length of elongate elements in end-to-end relation so that there are no spaces between said elements and pushing said continuous length into the opened sleeve. 10 . A method of manufacturing a continuous resilient flexible sleeve to hold a plurality of elongate elements positioned in end-to-end relationship, the continuous resilient flexible sleeve comprising a wall that extends around and partially encloses said elongate elements to hold them in position within the sleeve, the wall having a longitudinally extending opening configured to enable a user to make contact with elongate elements held by said sleeve through said opening to push them along the sleeve towards, and out of, one end of the sleeve, the method comprising the step of drawing a web of material through a molding die configured to deform said web into the sleeve prior to inserting said elongate elements into said sleeve. 11 . The method of claim 10 , further comprising the step of heating said molding die. 12 . The method of claim 11 , further comprising the step of cooling the molded continuous sleeve prior to inserting elongate elements into said sleeve. 13 . Apparatus for inserting elongate elements positioned in end-to-end relationship into a continuous resilient flexible sleeve comprising a wall that extends around and partially encloses said elongate elements to hold them in position within the sleeve, the wall having a longitudinally extending opening configured to enable a user to make contact with elongate elements held by said sleeve through said opening to push them along the sleeve towards, and out of, one end of the sleeve, the insertion apparatus comprising: a member configured to deform a region of the sleeve to enlarge the opening as said sleeve passes through said apparatus, and a conveyor to simultaneously feed a continuous length of elongate elements positioned in end-to-end relation into the sleeve through the enlarged opening in said region so that the sleeve closes around the elongate elements when it travels beyond said apparatus. 14 . The apparatus of claim 13 , wherein the member that deforms a region of the sleeve to enlarge the opening comprises an arcuately-shaped former around at least a portion of which said sleeve is passed so that it follows an arcuate path to thereby cause the opening in the sleeve to widen. 15 . The apparatus of claim 14 , wherein the arcuately-shaped former is disposed such that the sleeve passes around the former with its opening facing radially away from the longitudinal axis of the former so that the opening in the sleeve is widened. 16 . The apparatus of claim 13 , further comprising a support plate and a retaining plate positioned such that the sleeve passes between the support plate and the retaining plate as the sleeve leaves said member to maintain the deformation of the sleeve and prevent the region of the sleeve returning to its original non-deformed configuration. 17 . The apparatus of claim 13 , further comprising a garniture positioned downstream of said apparatus, through which the sleeve and the elongate elements contained within the sleeve are fed to close the sleeve around the elongate elements. 18 . The apparatus of claim 16 , wherein the support plate and retaining plate are configured to release the deformed region of the sleeve so that is closes around the elongate elements contained within the sleeve due to its own resilience. 19 . The apparatus of claim 17 , further comprising a heater disposed to heat the sleeve to soften it prior to deformation and/or to facilitate closing of the sleeve around the elongate elements. 20 . Apparatus for manufacturing a continuous resilient flexible sleeve to hold a plurality of elongate elements positioned in end-to-end relationship, the continuous resilient flexible sleeve comprising a wall that extends around and partially encloses said elongate elements to hold them in position within the sleeve, the wall having a longitudinally extending opening configured to enable a user to make contact with elongate elements held by said sleeve through said opening to push them along the sleeve towards, and out of, one end of the sleeve, the apparatus comprising a molding die through which a web of material is drawn to deform said web of material into the sleeve prior to inserting elongate elements into the sleeve. 21 . The apparatus of claim 20 , wherein the molding die comprises a tubular pathway through which the web of material is drawn to form the sleeve, said tubular pathway also comprising a tapered inlet. 22 . The apparatus of claim 21 , wherein the molding die comprises a first portion having a first recess and a second portion having a second recess, the second portion being moveable relative to the first portion such that when the molding die is in operation the second portion is in contact with the first portion and the first and second recesses are aligned to create said tubular pathway. 23