Inserts and cooperating retaining means for use with web dispensing means

Information

  • Patent Grant
  • 4659031
  • Patent Number
    4,659,031
  • Date Filed
    Thursday, March 13, 1986
    38 years ago
  • Date Issued
    Tuesday, April 21, 1987
    37 years ago
Abstract
Inserts for facilitating dispensing of wrapping material comprising an elongated web wrapped about a hollow cylindrical core. The inserts are telescopingly received within opposite ends of the hollow cylindrical core and are retained by a force-fit cylinder freely slidable relative to the insert and adapted to be force-fit within the hollow cylindrical core, enabling the web supply and its supporting core to be rotated relative to the inserts, while an operator holds the inserts during dispensing and wrapping operations.
Description

FIELD OF THE INVENTION
The present invention relates to apparatus for use in dispensing elongated webs and the like and more particularly to a novel insert system for use with such web supply rolls to facilitate dispensing of the web, to protect both the web and the operator, and to retain the inserts within the web roll core to prevent loss or damage thereto.
BRIEF DESCRIPTION OF THE INVENTION
The present invention is characterized by comprising an insert system which avoids all of the disadvantages of the prior art supply roll holding systems which protects the web from being cut, split or contaminated, and which is retained in the ends of the web core without friction between the core and the inserts, and regardless of the manner in which the roll is set down, said insert system being comprised of a suitable plastic material which is formed into a pair of generally hat-shaped inserts with hollow interiors, and being open at both ends, and a retention means which retains the inserts within the web core. Each insert is an open-ended hollow cylinder with a brim-like flange on one end. The diameter of each cylinder is preferably substantially constant throughout its length, so that the walls of the inserted hat will be substantially parallel to the inside walls of the web roll core. The retention means is removably secured to the inserts, retaining them telescoped within the core to prevent the inserts from falling out of the core.
BACKGROUND OF THE INVENTION
In order to protect palletized merchandise from moisture and dirt in shipping and handling, such palletized merchandise is often wrapped with a web of clear plastic film. This web is dispensed from an assembly typically in the form of a web of indeterminate length wrapped around a hollow cylindrical core. The free end of the web is tucked into a starting point of the palletized merchandise. An operator then walks around the palletized merchandise holding the core and dispensing the web over the merchandise as he walks around the merchandise being wrapped.
Handling systems have been developed to facilitate the holding of the roll and dispensing of the web.
Because those handling systems have been expensive, cumbersome and fragile, many operators will dispense with them and hold the web roll in their bare hands. Since the web roll slides as it rotates relative to the operator's fingers as the web is dispensed, the operator risks cuts and burns from the web roll. In addition, the fingers of the operator may engage the edges of the web, which may cause the web to split or tear before the palletized merchandise is fully wrapped.
In order to avoid the shortcomings of conventional holding assemblies, as well as the undesirability of having an operator handle the web rolls with bare hands, holding members having been developed. These members generally consist of inserts which are placed into each open end of the web roll core. Each insert is shaped like a cylindrical hat with a wide flat brim. The operator puts his fingers into the interiors of the hats, which remain stationary as the web roll rotates. Thus, the operator's fingers are protected. The brim of the hat prevents contact between the fingers of the operator and the edges of the web. Such an insert system may be found in my previous U.S. Pat. No. 4,372,500.
Even this simple system has been found to have its drawbacks. Often an operator must lay down a web roll to attend to another matter. In order to avoid soiling the web with dirt or moisture which is often found on warehouse floors, the operator will stand the roll on one end. If extreme care is not taken while doing this, the protective insert may fall out of the web roll core. The insert might then be damaged if the roll is put down on top of it, or may equally as likely become lost. The operator using this system may thus find himself constantly replacing and refitting inserts in the web core. Besides being inconvenient, this arrangement is costly and time-consuming.
It is, therefore, one object of the present invention to provide a novel insert system for use with wrapping film supply rolls and the like for telescoping insertion into the ends of the supply rolls to facilitate the dispensing operation, for permitting substantially free rotation of the supply roll relative to the inserts as the web material is dispensed, while at the same time preventing the inserts from becoming dislodged from the web roll core.
Still another object of the present invention is to provide a novel insert system for use in dispensing wrapping material in the form of an elongated web from a supply roll, said inserts being light in weight and having a low coefficient of sliding friction, as well as a relatively loose engagement with a cylinder force-fitted into the web roll core, to facilitate relative sliding movement between the inserts and the force-fitted cylinders.
Still another object of the present invention is to provide a novel inserts system for use in dispensing wrapping material from a supply roll wherein retaining means are provided to keep the inserts engaged with the web roll core no matter how low the friction or loose the fit between the insert and the core.





The above as well as other objects of the present invention will become apparent when reading the accompanying description and drawing, in which:
FIG. 1 is an exploded perspective view showing the manner in which the inserts are joined to a supply roll.
FIG. 2 is a sectional view showing the cooperating relationship between the inserts and the resilient elastic retention means.
FIGS. 3a and 3b show sectional and partial end views of a modification of the present invention.
FIGS. 4a and 4b show sectional and partial views of another modification of the present invention.
FIGS. 5a and 5b show sectional and end views of still another embodiment of the present invention.
FIG. 6 is a sectional view of another embodiment of the present invention.
FIGS. 7, 7a, 7b and 7c are sectional views showing still another embodiment of the present invention.
FIG. 8 is a sectional view of an alternative embodiment of that shown in FIGS. 7 and 7a.
FIG. 8a shows an elevational view of one of the locking projections of FIG. 8.





DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows an exploded view of the arrangement 10 of the present invention comprising a supply roll 12 and a pair of inserts 14, 14' arranged for telescoping insertion into the opposing open ends of supply roll 12 to facilitate a dispensing and wrapping operation as will be more fully described.
Supply roll 12 is comprised of a hollow cylindrical core 16 preferably formed of a rigid yet relatively light weight material such as cardboard or stiff paper board. Elongated web 18 of indeterminate length is wrapped about cylinder 16. The web 18 may, for example, be a thin gauge transparent platic film suitable for use in wrapping items which may be stacked upon a pallet. Film 18 is preferably a conventional film which is in widespread use and includes, for example, low density polyethylene film or PVC film. In the embodiment 10 of FIG. 1, the ends 16a and 16b of hollow cylindrical core 16 are shown as extending beyond the respective ends 18a and 18b of the web wrapped about core 16. However, the ends 16a and 16b may be flush with the wrapped ends of the web or possibly even recessed somewhat.
The interior 16c of cylindrical core 16 is preferably hollow throughout the entire length of the cylinder. Inserts 14 and 14' are inserted into the opposite ends of cylindrical core 16 by pressing the inserts 14, 14' into the interior in the directions shown by arrows 22, 22. Cylindrical sidewalls of the inserts 14, 14' are telescopingly received within the cylindrical core 16.
Since the inserts 14 and 14' are identical to one another, only one insert 14 will be described herein in detail for purposes of simplicity. Noting especially FIGS. 2 and 2a, insert 14 can be seen to comprise a substantially cylindrical shaped sidewall 14b which is preferably of constant diameter over its axial length. The outer diameter of cylindrical sidewall 14b is preferably slightly less than the inner diameter of cylindrical core 16b to permit easy insertion of sidewall 14b into cylindrical core 16b and, together with the nature of the material from which insert 14 is formed, provides a very low friction sliding fit between the engaging surfaces of cylindrical core 16 and insert 14.
The cylindrical sidewall 14b is open at both ends and is preferably provided with a flange 14c extending radially inward. Flange 14c is provided with a small opening 14d receiving the hooked end 20a of a resilient retaining assembly 20.
The opposite end of insert 14 is provided with an outwardly directed integral flange 14a.
Insert 14 may be formed through a vacuum forming technique, injection molding, stamping, or any other manufacturing process. The insert is preferably formed of a plastic material such as, for example, styrene or rubbermodified styrene, which materials have the characteristics of providing an insert which is relatively light in weight and quite durable and has a low coefficient of sliding friction. The thickness range of the insert is preferably in the range from 0.0625 to 0.250 inches, although a thinner or thicker insert may be provided if desired. The insert has a preferable thickness in the range from 0.115 to 0.135 inches. In addition, other plastic materials may be employed such as, for example, polyethylene or urythane or any plastic material exhibiting characteristics similar to those set forth hereinabove.
As was described hereinabove, the cylindrical portion 14b, 14b' of each insert 14 is aligned with the hollow open ends 16a, 16b of cylindrical core 16 and is slid inwardly so as to be telescopingly received thereby. Although the cylindrical sidewalls 14b, 14b' are freely slidable within cylindrical core 16, both members are retained therein by retaining assembly 20 comprised of an elongated elastic stretchable member 20a having a suitable diameter so as to be capable of stretching without breaking. Elongated member 20a is preferably formed of rubber or a rubber-like material or any plastic material exhibiting the requisite characteristics mentioned hereinabove.
In the embodiment shown in FIGS. 2 and 2a, a pair of hooking members 22, 22' are provided for coupling with each of the inserts 14, 14'. Members 22, 22' are preferably formed of a suitable metallic wire provided with a twisted end forming several turns 22a, 22a' wound about elastic member 20. The opposite end of wire 22, 22' is bent to form a hooked end 22b, 22b' which is arranged to extend into opening 14d, 14d' in flange 14c, 14c'. An overhand knot 20b, 20c is formed near each end of elastic member 20 to prevent removal of the hooked-shaped members 22, 22' from elastic member 20.
Hook-shaped coupling member 22' is substantially identical to hook-shaped member 22 and a second overhand knot 20c is provided at the opposite end of elastic member 20 to prevent removal of hook-shaped member 22' from elastic member 20. The hook end 22b' is received within an opening 14d' in the flange 14c' of insert 14'.
The manner in which the retainer assembly 20 is mounted is by insertion of a first of the inserts, for example, insert 14, into one end of cylindrical bore 16. One hook end 22b is inserted into opening 14d. Insert 14' is telescopingly received within the opposite end 16b of cylindrical core 16 and the free end of resilient member 20a is drawn through the cylindrical core, causing it to stretch, until the hook-shaped end 22b' is arranged just beyond opening 14d'. With the hook-shaped end 22b' in alignment with the opening, the elastic member 20a is released allowing the elastic member to retract from its stretched and expanded condition. However, the length of the elastic member is chosen relative to the separation distance between flanges 14c and 14c' so as to be partially stretched and remain under some tension in order to urge inserts 14, 14' toward one another, and thereby retain the inserts within core 16. The inserts 14, 14' will be retained within cylindrical core 16 during handling or when placed to one side, thereby eliminating the need for exercising any degree of care in the manner in which the wrapped roll is set aside during non-use or picked up in readiness to begin a wrapping operation.
When the wrapping web 18 is exhausted, the inserts 14, 14' may be removed from the cylindrical core 16 simply by gripping one of the hook-shaped members 22b,22b' pulling it in an outward direction from the adjacent end of the cylindrical core 16 until the hook-shaped member is clear of its associated opening 14d and thereafter simply releasing the hook-shaped member allowing it to fall free of the insert. Thereafter, both inserts 14, 14' may be easily removed from the cylindrical core 16.
During use, the tension imposed upon the inserts 14, 14' by elastic member 20a is sufficient to retain the inserts within the core 16, but is not so great as to interfere with the ability of both inserts to slide relative to the cylindrical core 16, thereby enabling an operator to grip each of the inserts 14, 14' as the operator walks about a large stack of merchandise enabling the web 18 and core 16 to rotate freely while the operator's hands hold the inserts 14, 14' stationary during the wrapping operation. If for any reason an operator wishes to set the assembly 10 aside to perform any other duty, the elastic member 20a is under sufficient tension to prevent the inserts 14, 14' from being released or dropping out of the cylindrical core 16.
FIGS. 3 through 7 show other embodiments of the present invention.
For example, considering FIGS. 3a and 3b, the inserts 14, 14' need not be provided with a continuous internal integral flange. As shown in FIGS. 3a and 3b, the continuous internal annular flange 14c is replaced with a single integral projection 14f extending radially inwardly from cylindrical sidewall 14b and provided with an opening 14d for receipt of the hook-shaped end 22b of coupling member 22. Although the flange 14f is shown as having a rectangular shape, the flange may alternatively have a rounded free end or any other suitable shape.
FIGS. 4a and 4b show another alternative embodiment of the present invention in which an integral projection 14g is provided along the interior of cylindrical sidewall 14b. The projection 14g projects radially inward and has a substantially keyhole-shaped elongated opening comprised of a narrow portion 14h communicating with a circular-shaped portion 14i having a diameter of significantly greater width than the narrow opening 14h. In the embodiment shown in FIGS. 4a and 4b, the metallic coupling hook 22 is eliminated, the elongated stretchable member 20a is passed through the narrow portion 14h of the opening so as to be received within the larger diameter portion 14i with the knotted portion 20b resting immediately above the top end of the enlarged opening portion 14i, as shown best in FIG. 4a. It should be understood that both inserts 14 and 14' will be provided with a projection 14g. In order to release the stretchable member 20a, the knot portion 20b is pulled upwardly as shown by the arrow A in FIG. 4a, whereupon the stretchable member 20a is then moved toward the right to remove the stretchable member 20a from both the large diameter opening 14i and the narrow opening 14h. The embodiment of FIGS. 4a and 4b is equally effective in retaining the inserts 14 and 14' within cylindrical core 16.
FIGS. 5a and 5b show still a further embodiment of the present invention in which the annular continuous integral flange 14c is notched or cut to form a pair of spaced slits 14j, 14k. Instead of using the elongated elastic member 20a, the embodiment of FIGS. 5a and 5b employs a closed loop stretchable member such as, for example, a rubber band 26 which is looped over the center portion of the flange 14c arranged between the slots 14j and 14k, as shown best in FIG. 5b. The rubber band 26 is arranged in a similar fashion to retain both of the inserts 14 and 14' in position within cylindrical core 16. The slightly upturned end 14c-1 of annular flange 14c serves to prevent the rubber band from being removed from the operative position, retaining both inserts 14 and 14' within the cylindrical core 16.
FIG. 6 shows still another alternative embodiment of the present invention in which the rubber band 26 may be looped around a single projection 14l integral with the interior surface of and extending generally inward from the cylindrical sidewall 14b. The rubber band 26 is looped around the projection 14l, the free end of which extends upwardly as shown at 14m to retain the rubber band in the operative position.
As an obvious alternative, the elastic member 20a shown in the embodiment of FIGS. 2 and 2a may be replaced by a closed loop rubber band 26 which may be fitted with the metallic coupling member 22 adapted for insertion into the openings 14d and 14d' of the inserts 14 and 14' respectively.
FIG. 7 shows still a further embodiment of the present invention which eliminates the need for elastic stretchable members. The embodiment shown in FIG. 7 in sectional view is comprised of an insert 14 having an integral flange 14n at its lower end and provided with a cylindrical shaped force-fit cylinder 28 whose axial length is slightly less than the distance between flanges 14a and 14n, and whose inner diameter is slightly greater than the outer diameter of cylindrical sidewall 14b, so as to be freely slidable relative to insert 14, and whose outer diameter is greater than the outer diameter of flange 14n and less than the outer diameter of flange 14a and also greater than the inner diameter of cylindrical core 16. The outer edge of flange 14n is tapered as shown in FIG. 7 to permit the force-fit cylinder 28 to be slidably mounted on to the insert 14. Once the bottom edge of the force-fit cylinder passes beyond the upper surface of flange 14n, this flat surface prevents the force-fit cylinder from being removed from insert 14. The manner of use of the embodiment shown in FIGS. 7 and 7a is as follows:
The insert assembly is arranged with the flange 14n positioned opposite one end of cylindrical core 16. The assembly is then pushed into core 16 so as to be telescopingly received therein with the outer periphery of forcefit cylinder 28 force-fittingly engaging the interior periphery of cylindrical core 16.
Insert 14 is pressed inwardly until the flange 14 substantially immediately overlies the end 16c of cylindrical core 16. The force-fitting engagement between forcefit cylinder 28 and cylindrical core 16 prevents the insert assembly from being accidentally removed from the cylindrical core. The arrangement is such, however, that the insert 14 is free to rotate relative to cylindrical core and force-fit cylinder 28 permitting the inserts 14 and 14' to be operated in the manner similar to those described hereinabove when performing a wrapping operation. The insert assemblies cannot be accidentally removed, but may be removed intentionally once the wrapping web 18 is exhausted.
The inserts are removed simply by forcefully pulling the inserts out of the core with a force sufficient to overcome the force-fitting friction fit between inserts 14 and 14' and the cylindrical core 16.
Although the force-fit cylinder 28 is shown as having its entire outer peripheral surface engaging the interior surface of cylindrical core 16, portions of the outer peripheral surface may be raised or provided with projections so as to reduce the amount of surface engagement between force-fit cylinder 28 and cylindrical core 16.
As another modification shown in FIG. 7a, the flange 14n of FIGS. 7 may be replaced with an elastic stretchable O-ring 30 seated within a groove 14c in the outer surface of side wall 14b. The O-ring serves to prevent the friction-fit cylinder 28 from being displaced from insert 14. As is shown in FIGS. 7b and 7c, the O-ring 30 may be replaced by a C-clip 32 snap-fittingly received with a rectangular-shaped annular groove 14p in sidewall 14b.
FIG. 8 shows a modification of the embodiment of FIG. 7a including a force-fit cylinder 28 which is force-fitted into a core but differs from that shown in FIG. 7, for example, in that it includes an integral flange 28a which rests over the end of core 16.
Insert 14 of FIG. 8 has a circular-shaped flange 14a overlying flange 28a and a cylindrical portion 14b which loosely fits within the interior of force-fit cylinder 14. Insert 14 of FIG. 8 differs from that of FIG. 7 in that the tapered projection 14n of FIG. 7 is replaced by two separate tapered projections 14q, 14r arranged diametrically opposite one another and being spaced a distance upward from the lower ends 14s of cylndrical portion 14b. Each projection is formed at the free-end of a flexible section 14t, 14u (see FIG. 8a) each respectively defined by a U-shaped slot 14v, 14w in cylindrical portion 14b. The tapered projections each terminate at their upper ends in shoulders 14x, 14y. The distance D.sub.1, between flange 14a and shoulders 14x, 14y is greater than the distance D.sub.2 between the top flange 28a and the bottom of cylindrical portion 28.
A force-fit cylinder is inserted into each end of core 16 as shown in FIG. 8. The end 14s of each insert 14 is inserted into an associated force-fit cylinder 28. The projections 14q, 14r are urged inwardly causing sections 14v, 14w to likewise flex inwardly.
The sections 14v, 14w snap outwardly when shoulders 14x, 14y clear the end 28c of cylindrical position 28, placing each shoulder 14x, 14y against end 28c of force-fit cylinder 28, preventing the inserts 14 from being removed from their associated force-fit cylinders 28. Although prevented from moving in an outwardly linear direction, each insert 14 is free to rotate relative to its associated force-fit cylinder facilitating the unwinding of wrapping material (not shown) wrapped about core 16.
The number of sections 14t, 14u may be increased to three, four or more if desired, preferably arranged at equispaced intervals about cylindrical portion 14a.
A latitude of modification, change and substitution is intended in the foregoing disclosure, and in some instances some features of the invention will be employed without a corresponding use of other features. For example, the U-shaped slots 14v, 14w may be omitted and the projections 14q, 14r may be provided with a slot 14q-1, 14r-1, (see FIG. 8) to enable the free end of each projection to flex while being inserted into the force-fit cylinder and snap out once their free-ends clear the force-fit cylinder. Accordingly, it is appropriate that the appended claims be construed broadly and in a manner consistant with the spirit and scope of the invention herein.
Claims
  • 1. Inserts for use in supporting a dispensing web wrapped about a hollow cylindrical core, each of said inserts comprising:
  • a substantially hollow cylindrical section having a first and second end, the diameter of said cylindrical section being substantially constant over the length thereof;
  • a substantially flat annular-shaped flange integral with and extending outwardly from the first end of said cylindrical section;
  • cylinder retainer means integral with and extending outwardly from the second end of said cylindrical section the diameter of the outer edge of said cylinder retainer means being less than the outer diameter of said first flange;
  • a hollow cylindrical-shaped force-fit cylinder encircling said hollow cylindrical section and having a length less than the distance between said first flange and said cylinder retainer means so as to be loosely retained about said hollow section and between said first flange and said cylinder retainer means, said force-fit cylinder and said cylindrical section being rotatably slidable relative to one another;
  • the outer diameter of said force-fit cylinder being at least equal to and preferably slightly greater than the inner diameter of said hollow cylindrical core for force-fittingly retaining said insert within said hollow cylindrical core, while enabling the cylindrical section of said insert to be freely rotatably slidable relative to said hollow cylindrical core.
  • 2. The apparatus of claim 1 wherein said cylinder retainer means comprises an annular flange integral with and extending outwardly form said cylindrical section.
  • 3. The apparatus of claim 1 wherein said cylinder retainer means comprises a resilient clip snap-fittingly received within a groove provided in the outer periphery of said cylindrical section.
  • 4. The apparatus of claim 1 wherein said cylinder retainer means comprises an O-ring received within a groove provided in the outer periphery of said cylindrical section.
  • 5. The apparatus of claim 1 wherein said retainer means comprises a plurality of locking projections each including a tapered surface whose first end is adjacent the surface of said cylindrical section and extends diagonally away from said cylindrical section surface to facilitate insertion of the second end of the cylindrical section into said force-fit cylinder.
  • 6. The apparatus of claim 5 wherein said tapered portion abruptly terminates to form a shoulder extending between the tapered portion and the surface of said cylindrical section and being substantially perpendicular to said cylindrical section which shoulder abuts the adjacent end of the force-fit cylinder when the insert is fully inserted into the force-fit cylinder to prevent the cylindrical section from being removed from the force-fit cylinder while being freely rotatable relative to the force-fit cylinder.
  • 7. The apparatus of claim 6 wherein each tapered projection is at the free end of a flexible section formed in the insert cylindrical section by a substantially U-shaped slot to enable the flexible section to flex inwardly when the insert is inserted into the force-fit cylinder and to cause the section to snap outwardly when the shoulder of the tapered projection clears the adjacent end of the force-fit cylinder.
  • 8. The apparatus of claim 7 wherein there are at least two projections arranged at regularly spaced intervals about the cylindrical section of the insert.
  • 9. The apparatus of claim 6 wherein the force-fit cylinder is provided with a flange integrally joined to one end of the force-fit cylinder to overly the end of the core; said insert flange overlying the flange of the force-fit cylinder.
  • 10. The apparatus of claim 9 wherein the distance between the surface of the insert flange engaging the force-fit cylinder flange and the shoulder is greater than the distance between the surface of the force-fit flange engaging the insert flange and the opposite end of the force-fit cylinder.
Parent Case Info

This application is a continuation-in-part application of application Ser. No. 572,990 filed Jan. 23, 1984, now U.S. Pat. No. 4,582,273.

US Referenced Citations (5)
Number Name Date Kind
4179081 Parry Dec 1979
4248392 Parry Feb 1981
4372500 Saraisky Feb 1983
4477037 Goldstein Oct 1984
4530473 Parry Jul 1985
Foreign Referenced Citations (1)
Number Date Country
2717728 Oct 1978 DEX
Continuation in Parts (1)
Number Date Country
Parent 572990 Jan 1984