Plastic and nonmetallic article shaping or treating: processes – Forming continuous or indefinite length work – Of varying cross-sectional area or with intermittent...
Reexamination Certificate
2000-02-14
2003-10-21
Eashoo, Mark (Department: 1732)
Plastic and nonmetallic article shaping or treating: processes
Forming continuous or indefinite length work
Of varying cross-sectional area or with intermittent...
C264S280000, C264S319000
Reexamination Certificate
active
06635212
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention concerns mechanical fasteners such as hook-and-loop fasteners and is especially concerned with a mushroom-type hook strip such as can releasably close a garment, e.g., a disposable garment such as a diaper or a hospital gown. The invention also concerns mushroom-type hermaphroditic mechanical fasteners.
2. Description of the Related Art
Widely used as garment fasteners are hook-and-loop fasteners such as are currently marketed under the trademark VELCRO by Velcro USA Inc. and under the trademark SCOTCHMATE by 3M Co. As taught in U.S. Pat. Nos. 2,717,437 and 3,009,235 (both DeMestral), the hook strip can be made from special warps of upstanding nylon loop pile. One leg of each loop is cut to leave an open-ended hook, which is available to act as a fastening element.
U.S. Pat. No. 3,594,865 (Erb) of American Velcro Inc. describes injection molding techniques for manufacturing the hook strip of a hook-and-loop fastener. This, it says, provides “production rates which are faster than the weaving techniques required in U.S. Pat. Nos. 2,717,437 and 3,009,235.” The Erb techniques employ a closed loop of a large number of shallow wire dies. While applying a vacuum to evacuate the wire dies, the closed loop is passed through an extruder by which molten plastic such as nylon is forced through the dies to impregnate a fabric web immediately beneath the dies. Upon exiting from the extruder, excess resin is stripped from the surfaces of the dies to leave resilient hooks that are progressively cammed out of the dies and then spring back to provide an orderly array of hooks projecting from the plastic impregnated fabric web. Instead of using a fabric web, the apparatus can be modified to create a space beyond the wire dies into which the molten plastic can flow to form an all-plastic backing for the hooks. Another Erb U.S. Pat. No. 3,594,863 concerns similar apparatus for producing a similar hook-bearing strip. In spite of these Erb patents, the hook strips of “Velcro” hook-and-loop fasteners, as marketed today, are predominantly made by weaving techniques.
Another procedure for continuously molding a hook strip is described in U.S. Pat. No. 3,762,000 (Meazin et al.).
In U.S. Pat. No. 3,718,725 (Hamano), the hook strip of a hook-and-loop fastener is made from a fabric having an orderly array of upstanding loops. After inserting rods into rows of loops to maintain their upstanding position, platens or rollers apply heat and pressure to melt each loop at its summit and to press each free molten end to form a knob or head that can interengage with the loop strip of a hook-and-loop fastener. Because the knobs or heads afford a mushroom appearance, this type of hook fastener is called “mushroom-type”.
Although a hook strip of a hook-and-loop fastener is typically sold with a cooperating loop strip, the hook strip can be used by itself to become releasably fastened to fabrics that can be easily penetrated by the hooks. Mushroom-type hook strips are particularly suited for such use. For example, mushroom-type hook strips can be designed to become releasably fastened to burlap, terry cloth, and tricot.
Mushroom-type mechanical fasteners are sometimes designed so that two hook strips can be used to fasten two articles together by adhering each strip to one of the articles and then interengaging the two strips. Such a mushroom-type mechanical fastener is shown in U.S. Pat. No. 3,192,589 (Pearson) which calls the fastener “hermaphroditic” because its headed studs have both male and female characteristics when intermeshed. The Pearson fasteners can be made by molding a base from which integral headless studs project and then heat softening the tips of the studs.
The hermaphroditic mushroom-type mechanical fastener shown in U.S. Pat. No. 4,290,174 (Kalleberg) is made with flexible, resilient, U-shaped monofilaments. The bight portion of each monofilament is embedded in a flexible bonding layer so that two stems project normally from the surface of the bonding layer. There is a mushroom head at the tip of each stem. The stems preferably are substantially uniformly spaced and of substantially equal length. Maximum disengagement force is achieved when the spacing between adjacent heads is less than their diameters and the minimum required for engagement. The monofilaments preferably are longitudinally oriented polyolefin, and the bonding layer preferably is polyolefin to permit the monofilaments to be heat fused into the bonding layer.
U.S. Pat. No. 3,408,705 (Kayser et al.) shows mushroom-type mechanical fasteners having mushroom heads of several shapes.
SUMMARY OF THE INVENTION
The invention provides a mushroom-type hook strip for a mechanical fastener such as a hook-and-loop fastener, which hook strip affords the advantages of prior mushroom-type hook strips while being less expensive to manufacture. Like prior mushroom-type hook strips, that of the invention either can be used with a loop strip or can be directly fastened to a fabric that can be penetrated by the hooks.
In another aspect of the invention, the spacing of the mushroom-type hooks can be configured such that two pieces of the hook strip interengage to provide a mechanical fastener.
Briefly, the novel mushroom-type hook strip comprises a homogeneous backing of thermoplastic resin and, integral with backing, an array of upstanding stems distributed across at least one face of the backing, each having a mushroom head, said stems having a molecular orientation as evidenced by a birefringence value of at least 0.001. In contrast, the backing of the mushroom-type hook strip of the Kalleberg patent is not homogeneous because of the bight portions of the monofilaments, even when the monofilaments and backing are identical in chemical composition and fused together.
A novel method of making the mushroom-type hook strip employs a mold which is cylindrical except being formed with cavities that are the negatives of an array of upstanding stems. The novel method involves the steps of
a) rotating the mold on its axis,
b) continuously evacuating air from the cavities,
c) continuously injecting a molten, molecularly orientable thermoplastic resin into the evacuated cavities in excess of the amount that would fill the cavities, which excess forms a layer of resin overlying the cavities,
d) continuously cooling the mold at walls of the evacuated cavities to cause the molten resin to become molecularly oriented while it is filling the cavities,
e) allowing the injected resin to solidify,
f) continuously stripping from the mold the solidified resin layer as a backing and integral array of upstanding stems, and
g) deforming the tips of the stems to produce a mushroom head at the tip of each stem.
When the end of each of the cavities is closed, the evacuating step b) can involve the application of a vacuum so that the resin injected in step c) can substantially fill each cavity, all of which should have substantially equal depth.
When the inner end of each cavity is open, the resin injected in step c) can evacuate the cavities, but by applying a vacuum at the inner end, this should enhance the filling of the cavities. When optionally, the injected resin flows beyond the open ends of the cavities, in which case the protruding resin is skived off at the ends of the cavities before the stripping step f), thus producing stems of uniform height when the cavities are of uniform depth.
In order to afford the desired molecular orientation, the walls of the cavities should be cooled to a temperature such that the injected resin solidifies along the walls while continuing to fill the core of each cavity. After the core of a cavity has been filled, the cooling must be continued to maintain the molecular orientation and to allow the stem to be pulled from the cavity. Afterwards, it may be desirable to apply heat to the wall of the cavity before it is again injected with resin.
The cavities can be tapered to a smaller diameter in the direction of injection to facilitate removal in step f). The cavities pre
Bychinski Dale A.
Lindseth Marvin D.
Melbye William L.
Nestegard Susan K.
Wood Leigh E.
3M Innovative Properties Company
Bond William J.
Eashoo Mark
Griswold Gary L.
Sprague Robert W.
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