Impact-driven plastic fasteners

Details Impact-driven plastic fasteners Impact-driven plastic fasteners

1998-06-25

2001-01-02

Wilson, Neill (Department: 3627)

Expanded, threaded, driven, headed, tool-deformed, or locked-thr

Impact driven fastener, e.g., nail, spike, tack, etc.

Plural attached fasteners

C411S908000, C411S920000, C206S345000

Utility Patent

active

06168362

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to the field of impact-driven plastic fasteners. More particularly, it concerns an improved plastic fastener pack for use in impact driving fastener machine. The fasteners are made of ultra-high strength plastic composites, for example, thermoplastic or thermoset materials. A purpose of the present application is to include additional information obtained since the date of the original filing regarding other fasteners and other specific materials. A further purpose includes the description impact driven fasteners, other than nails, that perform according to the same criteria used for nails of the present invention. For the latter, the inventors' purposes could be served by substituting “impact driven fastener” in every instance that “nail” is used in the original patent specification except in specific examples involving nails.
2. Description of the Relevant Art
The use of machine-driven fasteners is widespread in industry, particularly in construction. Applications include furniture making, cabinet making, boat manufacture, roofing, dry wall installation, deck building, fence building and interior finish out, to name but a few. A major concern affecting the lifetime, quality and appearance of such applications is corrosion of the fastener. Galvanization of impact-driven metal fasteners such as, e.g., nails is the predominant method for reducing corrosion. Other methods include using aluminum or stainless steel or plastic-coated fasteners. All of these methods add considerable cost to the finished fastener, and do not completely prevent fastener corrosion.
Attempts have been made to produce nail fasteners from materials that do not significantly corrode, namely plastics. U.S. Pat. No. 2,510,693 to Green, Jun. 6, 1950 relates to fasteners made from a thermoplastic material having reinforcing fibers therein. U.S. Pat. No. 3,165,968 to Anstett, Jan. 19, 1965 describes a synthetic plastic nailing strip of, for example, a polyamide resin. U.S. Pat. No. 3,112,667 to Brentlinger, Dec. 3, 1963 relates to nails for use in dry wall construction, the nails having a recessed head and means for preventing flattening of the head when the nail is driven into a dry wall panel. U.S. Pat. No. 3,225,917 to Couch, Dec. 28, 1965 relates to a package of drive type fasteners for use in automatic nailing machines. U.S. Pat. No. 3,252,569 to Matthews, May 24, 1966 describes a plastic coated laminated nail having a reinforcing metallic wire core and a thermoplastic body. U.S. Pat. No. 3,348,669 to Powers, Oct. 24, 1997 describes formation of tools adapted to sever and drive individual fasteners form a stick supply of fasteners.
U.S. Pat. No. 3,492,907 to Hauck, Feb. 3, 1997 relates to a molded plastic tack strip adapted for use in a tack gun, the strip having a plurality of closely spaced tack shanks interconnected by severable webs. U.S. Pat. No. 3,813,985 to Perkins, Jun. 4, 1974 relates to coated fasteners, adhesive-coating compositions for fasteners, single-bevel, divergent point staples, and groups of staples united by an adhesive coating. U.S. Pat. No. 3,915,299 to Miyaoku, Oct. 28, 1975 describes a nail strip having side-to-side perforations in each nail permitting their alignment and belt threaded through them for connection. The nail may be made of steel-reinforced plastics, such as methyl methacrylate, with waterproof, anti-moisture and anti-corrosion properties.
U.S. Pat. No. 4,456,123 to Russell, Jun. 26, 1984 relates to a method for attaching price tags to garments and for other joining applications using plastic fasteners dispensed through hollow, slotted needles. U.S. Pat. No. 4,664,733 to Masago, May 12, 1987 describes cohered fasteners, in particular, cohered nails, secured together in contiguous relation wherein separation of a fastener to be driven is facilitated. A group of wires is coated with an adhesive of thermoplastic resin and a second coating of nitrocellulose resin to form a strip for shaping into desired fasteners.
U.S. Pat. No. 4,826,381 to Kiriyama, May 2, 1989, incorporated by reference herein, relates to a continuous nail for automatic nailing machines. Each nail is injection molded with a thermoplastic resin e.g., polyamide resin, mixed with reinforcing materials, such as fine glass fiber, carbon fiber, etc. to improve the strength of the nail. The surface of the nail will be melted by frictional heat when it is driven for nailing. Kowa T Nail, a manufacture's brochure mentioned in patent '381, relates to a plastic nail, a plastic staple and pneumatic nailer. The shape of the nail and low L/d necessitated the development of a special pneumatic tacker.
U.S. Pat. No. 4,971,503 to Barnell et al., Nov. 20 1990 describes nail packs and clips used in automatic nailing guns. The nail package may contain plastic nails interconnected by integrally molded upper webs and lower webs. The plastic is a thermoplastic having high impact resistance and high tensile strength, such as Ultem, Nylon, A.B.S., polyester, polyphenoleneoxide and polycarbonate. U.S. Pat. No. 5,098,940 to Brooks, Mar. 24, 1992 relates to crystalline polyphthalamide component and a particular thermotropic liquid crystalline polymer component in an amount sufficient to nucleate a melt of the polyphthalamide. The compositions are reported to be useful as injection molding compounds for production of electronic connectors, switch components, pump housings, valve components and under-the-hood automobile parts.
U.S. Pat. No. 5,153,250 to Sinclair, Oct. 6, 1992 describes compositions comprising (1) a polyphthalamide component compromising at least two recurring units selected from the group consisting of terephathalamide units, isophthalamide units and adipamide units and which, when filled with glass fibers, has a heat deflection temperature at 264 psi, according to ASTM D-648, of at least about 240° C.,; (2) about 10 to about 200 parts by weight reinforcing fibers per hundred parts by weight of the polyphthalamide component and (3) at least about 0.01 to about 5 parts by weight particulate talc per hundred parts by weight of the polyphthalamide component. The cited uses are the same as for U.S. Pat. No. 5,098,940.
U.S. Pat. No. 4,206,264 to Kurr relates to a group of polyester resins for coating fasteners. U.S. Pat. No. 5,149,237 to Gabriel et al. Also relates to a coating for metal fasteners. The coating is a combination of two resins, a copolymer of preferably styrene and maleic anhydride and a thermoplastic resin, preferably vinyl acetate. U.S. Pat. No. 4,903,831 to Francis relates to an automatic nailer system which employs plastic ferrules which hold nails to form a strip.
The present inventors have discovered that the design of a fastener such as a nail or staple, e.g., for impact penetration is analogous to that of structural columns (
Mechanics of Materials
, 3rd ed., by Higdon et al., John Wiley & Sons, New York, 1976; and
Design of Wood Structures
, 3rd ed., by D. E. Breyer, McGraw-Hill, Inc., New York, 1993), with proper adjustments for the rate of load being applied, and assuming uniform stress in the fastener during penetration. Adjustment of the rate of loading is accomplished by multiplication of a constant for impact loads. It serves to increase the allowable column stress compared to a load applied over a long period of time. The effect is the same for all plastic material types, therefore, is not applied in the analysis presented herein.
In ideal column design, two types of columns are considered: short and long. The former implies that the column will not buckle and its strength is related to the compression strength of the material. The latter presumes column instability, called buckling, as the only failure mechanism. In most situations, design of real columns, or nails, must consider the possibility of buckling (midsection of column) and crushing (ends of column). Actual column
ail behavior is defined by the intersection of the buckling and crushing modes of failure.
Whether the column

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