The invention relates to an apparatus and method for producing yarn carriers having a reinforced outwardly extending ridge at one or more ends of the yarn carrier. The invention is directed generally towards yarn carriers that are frusto-conical or cylindrical in shape and which have generally smooth, uninterrupted inner walls. Such yarn carriers are usually referred to as cones or tubes in the textile industry and are made of compressed, impregnated paper fiber. These cones and tubes are typically wound with yarn tails which permit the leading end of yarn on an exhausted cone to be tied to the leading end of yarn on a succeeding full package. The tail is necessary if the transfer from the exhausted to the full package is to take place without dropping needles, which causes a serious defect in the knitted fabric. Consequently, it is an important consideration when winding yarn onto a yarn carrier that such yarn tails do not slip off of the package and become lost.
Prior art plastic yarn carriers have used a raised rim or roughened portion on the outer surface near the base to frictionally engage the yarn tail to prevent its slippage off of the package. Such a configuration is conducive to yarn carriers made from plastic. However, it would be difficult and impractical to form such a raised, roughened portion on the outer surface of a yarn carrier made from paper fiber which would effectively prevent yarn tail slippage.
It is also desirable for the yarn carrier to have reinforced strength at its base edge. Yarn is wound on the yarn carrier while it is positioned on a spinning machine. Typically, the yarn carrier is then removed from the spinning machine and transported a remote distance to a knitting operation in which the yarn carrier is placed on a creel. During transport from the spinning machine to the creel, it is common for the yarn carrier to be dropped on its base and to undergo other kinds of accidents incidental to the shipping process. Damage to the base of the yarn carrier will prevent the yarn from coming off of the base properly when the knitter attempts unwind the yarn carrier. Therefore, it is desirable for the yarn carrier to have a reinforced base.
Prior art yarn carriers exist in which the base edge of the carrier is rolled inwardly to on the inner surface of the yarn carrier. While the rolled over portion stabilizes the carrier, and adds radial and axial strength, it is also desirable, as noted above, for there to be an outwardly extending ridge at the base end to prevent yarn tail slippage. As such, there is a need for an apparatus and method for efficiently forming a paper yarn carrier having a reinforced outwardly extending base.
Therefore it is an object of the present invention to provide an apparatus for producing a yarn carrier having a reinforced enlarged base.
It is another object of the present invention to provide a method for molding a yarn carrier with a having a reinforced enlarged base.
These and other objects of the present invention are achieved by providing an apparatus for forming an enlarged base on a yarn carrier having a clamp for holding a paper yarn carrier having walls defining an inner surface and an outer surface with a terminal portion located at an end thereof, and a die for being positioned around the outer surface of the yarn carrier defining the terminal portion. The die includes an annular recess for receiving the terminal portion of the yarn carrier therein, and the recess is shaped and sized to correspond to a desired shape of the enlarged base. A plunger is inserted into the terminal portion of the yarn carrier, and outwardly urges base of the yarn carrier into the recess of the die, molding the enlarged base on the yarn carrier.
According to a preferred embodiment of the invention, the terminal portion of the yarn carrier is folded inwardly to form a rolled over portion on the inner surface, the rolled over portion initially defining an inner diameter and an outer diameter each no greater than a diameter of a remaining portion of the yarn carrier. Molding the terminal portion comprises enlarging the outer diameter of the rolled over portion to a diameter greater than the remaining portion of the yarn carrier and forming a reinforced enlarged base on the yarn carrier.
According to another preferred embodiment of the invention, molding the terminal portion includes enlarging the inner diameter of the rolled over portion to a diameter greater than the remaining portion of the yarn carrier and forming the reinforced enlarged base on the yarn carrier.
According to another preferred embodiment of the invention, the plunger includes a front end having a diameter less than the terminal portion of the yarn carrier and graduating to a rear end having a diameter greater than the terminal portion of the yarn carrier. As such, the plunger frictionally engages the inner surface of the yarn carrier at the terminal portion as the plunger is inserted into the yarn carrier and urges the terminal portion outwardly into the recess of the die to mold the enlarged base on the yarn carrier.
According to another preferred embodiment of the invention, the plunger is rotatable for exerting force against the inner surface of the yarn carrier and creating friction heat facilitating the molding of the yarn carrier.
According to another preferred embodiment of the invention, the die includes two arcuate die segments positioned in complimentary fashion around the outer surface proximate the terminal portion of the yarn carrier. The die segments are movable in relation to the yarn carrier.
According to yet another preferred embodiment of the invention, each of The die segments are driven by an air cylinder.
According to yet another preferred embodiment of the invention, the apparatus for forming an enlarged base on a yarn carrier includes a rotatable plunger for inserting into a first end of a hollow yarn carrier having walls defining an outer surface and inner surface. The plunger includes a front end having a diameter less than the first end of the yarn carrier and graduates to a rear end having a diameter greater than the first end of the yarn carrier. As such, the plunger frictionally engages the inner surface at a terminal portion of the yarn carrier. A die is positioned around the outer surface proximate the first end of the yarn carrier. The die defines an annular recess for receiving the terminal portion of the yarn carrier therein, and the recess is shaped and sized to correspond to a desired shape of the enlarged base. The yarn carrier and the plunger are rotated on a longitudinal axis, and the plunger forces the terminal portion of the yarn carrier into the recess of the die to mold the enlarged base on the yarn carrier.
According to yet another preferred embodiment of the invention, the terminal portion of the yarn carrier is folded inwardly on the inner surface to form a rolled over portion defining an inner diameter and an outer diameter each less than a diameter of a remaining portion of the yarn carrier. Molding the terminal portion includes enlarging the outer diameter of the rolled over portion to a diameter greater than the remaining portion of the yarn carrier and forming a reinforced enlarged base on the yarn carrier.
According to yet another preferred embodiment of the invention, molding the terminal portion includes enlarging the inner diameter of the rolled over portion to a diameter greater than the remaining portion of the yarn carrier and forming the reinforced enlarged base on the yarn carrier.
According to yet another preferred embodiment of the invention, a motor is connected to the rotatable plunger for driving the plunger and rotating the yarn carrier.
According to yet another preferred embodiment of the invention, a motor is connected to a rotatable mandrel for driving the mandrel. The mandrel is inserted into a second end of the yarn carrier, and rotates the yarn carrier and the plunger.
According to yet another preferred embodiment of the invention, the die includes two arcuate die segments positioned in complimentary fashion around the outer surface proximate the first end of the yarn carrier. The die segments are rotatable on an axis parallel to the longitudinal axis of the yarn carrier.
According to yet another preferred embodiment of the invention, the die segments are driven by an air cylinder and movable in relation to the yarn carrier.
According a preferred method for forming an enlarged base on a yarn carrier according to the invention, includes providing a paper yarn carrier defining an inner surface and an outer surface on opposite sides thereof, and at least one end of the yarn carrier folded inwardly to form a rolled over portion on the inner surface at a terminal portion of the yarn carrier. A chuck is provided having a recess therein shaped to receive the terminal portion of the yarn carrier and extend the terminal portion of the yarn carrier outwardly upon rotating the chuck. The terminal portion of the yarn carrier is positioned in to the recess of the chuck, and the chuck is rotated. The diameter of the terminal portion of the yarn carrier wall is extended outwardly and molded to form an enlarged base on the yarn carrier.
Another preferred method for making a yarn carrier according to the invention includes the step of maintaining the yarn carrier in a stable position as the chuck rotates by frictionally engaging the yarn carrier with a clamp.
Yet another preferred method for making a yarn carrier according to the invention includes the step of providing a paper yarn carrier that is frusto-conical or cylindrical, and the yarn carrier defines an inner surface and an outer surface on opposite sides thereof, and at least one end of the yarn carrier is folded inwardly to form a rolled over portion on the inner surface at a terminal portion of the yarn carrier.
Yet another preferred method for making a yarn carrier according to the invention includes providing a paper yarn carrier defining an inner surface and an outer surface on opposite sides thereof, and at least one end of the yarn carrier is folded inwardly to form a rolled over portion on the inner surface at a terminal portion of the yarn carrier. A die is positioned against the outer surface at the terminal portion of the yarn carrier. The die defines a recess for receiving the terminal portion of the yarn carrier. The recess is shaped and sized to correspond to a desired shape and diameter of the enlarged base. Finally, a molding mechanism is positioned within the yarn carrier at the terminal portion for inserting the terminal portion into the recess of the die to mold the enlarged base on the yarn carrier.
Yet another preferred method for making a yarn carrier according to the invention includes the step of inserting a plunger with a front end having a diameter less than the terminal portion of the yarn carrier and graduating to a rear end having a diameter greater than the terminal portion of the yarn carrier. The plunger frictionally engages the inner surface at the terminal portion and urges the terminal portion outwardly into the recess of the die to form the enlarged base on the yarn carrier.
Yet another preferred method for making a yarn carrier according to the invention includes positioning a plunger rotating on a longitudinal axis of the yarn carrier and comprising a front end having a diameter less than the terminal portion of the yarn carrier and graduating to a rear end having a diameter greater than the terminal portion of the yarn carrier. The rotating plunger frictionally engages the inner surface at the terminal portion and urges the terminal portion outwardly into the recess of the die to mold the enlarged base on the yarn carrier.
Yet another preferred method for making a yarn carrier according to the invention includes the step of supporting the yarn carrier in a stable position with a clamp.
Yet another preferred method for making a yarn carrier according to the invention includes the step of providing a paper yarn carrier that is frusto-conical or cylindrical and defining an inner surface and an outer surface on opposite sides thereof. At least one end of the yarn carrier is folded inwardly to form a rolled over portion on the inner surface at a terminal portion of the yarn carrier.
Yet another preferred method for making a yarn carrier according to the invention includes providing a paper yarn carrier defining an inner surface and an outer surface on opposite sides thereof, and at least one end of the yarn carrier is folded inwardly to form a rolled over portion on the inner surface at a terminal portion of the yarn carrier. A die is positioned against the outer surface at the terminal portion of the yarn carrier. The die defines a recess for receiving the terminal portion of the yarn carrier, and the recess is shaped and sized to correspond to a desired shape and diameter of the enlarged base. A rotatable plunger is positioned within the yarn carrier at the terminal portion. The plunger includes a front end having a diameter less than the terminal portion of the yarn carrier and graduates to a rear end having a diameter greater than the terminal portion of the yarn carrier so that the plunger frictionally engages the inner surface at the terminal portion as the plunger is inserted into the yarn carrier. The rotatable plunger is inserted into the yarn carrier, and rotated to urge the terminal portion of the yarn carrier outwardly into the recess of the die to mold the enlarged base on the yarn carrier.
Yet another preferred method for making a yarn carrier according to the invention includes providing two arcuate complimentary die segments moveable in relation to the yarn carrier and pivotable on an axis parallel to a longitudinal axis of the yarn carrier, and positioning the die segments against the outer surface of the terminal portion.
Yet another preferred method for making a yarn carrier according to the invention includes positioning a rotatable mandrel within the yarn carrier at an end opposite to the plunger, and rotating the mandrel.
Yet another preferred method for making a yarn carrier according to the invention includes providing a paper yarn carrier defining an inner surface and an outer surface on opposite sides thereof, and at least one end of the yarn carrier is folded inwardly to form a rolled over portion on the inner surface at a terminal portion of the yarn carrier. A chuck is provided having a recess shaped to receive the terminal portion of the yarn carrier and extend the terminal portion of the yarn carrier outwardly upon rotating the chuck. The terminal portion of the yarn carrier is forced into the recess of the chuck, and the chuck is rotated. The diameter of the terminal portion of the yarn carrier wall is extended outwardly and molded to form an enlarged base on the yarn carrier.
Yet another preferred method for making a yarn carrier according to the invention includes providing a paper yarn carrier defining an inner surface and an outer surface on opposite sides thereof, and at least one end of the yarn carrier is folded inwardly to form a rolled over portion on the inner surface at a terminal portion of the yarn carrier. A die is positioned against the outer surface at the terminal portion of the yarn carrier. The die defines a recess for receiving the terminal portion of the yarn carrier, and the recess is shaped and sized to correspond to a desired shape and diameter of the enlarged base. A molding mechanism is positioned within the yarn carrier at the terminal portion for inserting the terminal portion into the recess of the die to mold the enlarged base on the yarn carrier.
According to yet another preferred embodiment of the invention, a yarn carrier having an enlarged base formed by a process that includes providing a paper yarn carrier defining an inner surface and an outer surface on opposite sides thereof. At least one end of the yarn carrier is folded inwardly to form a rolled over portion on the inner surface at a terminal portion of the yarn carrier. A die is positioned against the outer surface at the terminal portion of the yarn carrier. The die defines a recess for receiving the terminal portion of the yarn carrier, and the recess is shaped and sized to correspond to a desired shape and diameter of the enlarged base. A rotatable plunger is positioned within the yarn carrier at the terminal portion. The plunger includes a front end having a diameter less than the terminal portion of the yarn carrier and graduates to a rear end having a diameter greater than the terminal portion of the yarn carrier. The plunger frictionally engages the inner surface at the terminal portion as the plunger is inserted into the yarn carrier. The terminal portion of the yarn carrier is urged outwardly into the recess of the die to mold the enlarged base on the yarn carrier.
Some of the objects of the invention have been set forth above. Other objects and advantages of the invention will appear as the invention proceeds when taken in conjunction with the following drawings, in which:
An apparatus for making a yarn carrier according to a preferred embodiment of the invention is illustrated in
According to one embodiment of the invention, the yarn carrier 14 is frusto-conical, and comprises a nose 14A, a base 14B, and walls defining an inner surface 14C and an outersurface 14D. Preferably, the edge of the nose 14A and the edge of the base 14B are rolled inwardly onto the inner surface 14C of the yarn carrier 14 by a conventional process such as spin molding. As such, the base 14B has an inner diameter defined by the inner most edge of the rolled over portion, and an outer diameter defined by the outermost edge of the rolled over portion. The clamp 11 grips the outer surface 14D of the yarn carrier and holds the yarn carrier 14 in place.
The die 12 comprises two arcuate segments 12A, 12B positioned in complimentary fashion around the base 14B of the yarn carrier 14. The die segments 12A, 12B are driven by air cylinders 15, 16, respectively, and are movable in relation to the yarn carrier 14 and each other. Each die segment 12A, 12B defines a recess R that is sized and shaped to correspond to a desired shape of the base 14B. When positioned in a molding position, shown in
The plunger 13 includes a head 17 that is cylindrical in shape with a front end having a diameter slightly smaller than the base 14B of the yarn carrier 14. This facilitates introduction of the plunger head 17 into the yarn carrier 14. The diameter of the head 17 gradually increases from the front end to the rear end, which has a diameter greater than the base 14B.
The die segments 12A, 12B are moved into the molding position as shown in
The outer diameter of the base 14B extends outwardly from the rest of the yarn carrier 14 to create a slight ridge, for preventing yarn tail slippage. The inner diameter of the base 14B is shown in
In an alternative embodiment, the plunger 13 is rotatable against the inner surface 14C of the yarn carrier 14 to enhance the molding process. In this alternative embodiment, the plunger 13 is preferably driven by an motor connected to the plunger 13.
Another preferred embodiment of an apparatus for making a yarn carrier according to the invention is illustrated in
The clamp 31 grips the outer surface 14D of the yarn carrier and holds the yarn carrier 14 in place. The die 32 comprises two arcuate segments 32A, 32B positioned in complimentary fashion around the base 14B of the yarn carrier 34. The die segments 32A, 32B are driven by air cylinders 35, 36, respectively, and are movable in relation to the yarn carrier 34 and each other. In addition, the die segments 32A, 32B are connected to bearings 38A, 38B, respectively, that allow the die segments 32A, 32B to spin on an axis parallel to the longitudinal axis of the yarn carrier 14, as shown in
The plunger 33 includes a head 37 that is cylindrical in shape and has a front end having a diameter slightly smaller than the base 14B of the yarn carrier 14. The diameter of the head 37 gradually increases from the front end to the rear end, which has a diameter greater than the base 34B. The plunger 33 is rotatable along the longitudinal axis of the yarn carrier 14, as shown in
The die segments 32A, 32B are moved into the molding position as shown in
The outer diameter of the base 14B extends outwardly from the rest of the yarn carrier 14 to create a slight ridge. The inner diameter of the base 14B is shown in
A preferred embodiment of a method for molding a yarn carrier having a reinforced outwardly extending terminal portion is illustrated in
As shown in
An apparatus and method for making a yarn carrier with an enlarged base is disclosed above. Various embodiments of the invention can be made without departing from its scope. Furthermore, the foregoing description of the preferred embodiments of the invention and the best mode for practicing the invention are provided for the purpose of illustration only and not for the purpose of limitation—the invention being defined by the following claims.