Special receptacle or package – Shock protection type – With yieldable retainer
Reexamination Certificate
2000-01-24
2003-02-18
Luong, Shian (Department: 3728)
Special receptacle or package
Shock protection type
With yieldable retainer
C206S470000, C206S557000, C206S586000
Reexamination Certificate
active
06520337
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to product cushioning devices for use in packaging shock sensitive products. In particular, the invention relates to re-usable or recyclable product cushioning devices which are made from plastics material, and which may have several different embodiments including corner pieces, edge pieces, and end caps. Each of the embodiments of the present invention comprises a unitary structure which may be molded from a plastics material using a variety of molding techniques.
BACKGROUND OF THE INVENTION
The use of product cushioning devices for shock sensitive products has been known for many years. Typically, cushioning for shock sensitive devices comprises a number of different approaches, each of which may have its own particular advantages and/or disadvantages.
For example, it has been known for many years to wrap shock sensitive or delicate devices or merchandise in tissue paper, and to cushion the products with loosely balled tissue paper. Another use of paper has been shredded paper, or excelsior. A more elegant approach has been to use bubble-pack, which comprises a sheet material having a plurality of contained bubbles of air formed therein. Another approach which has been used for many years has been the use of a plurality of discrete molded foamed polystyrene pellets, sometimes referred to as “peanuts” in the industry, to fill around a product in a container.
As the requirement for better packaging and cushioning became more demanding, for example with the introduction to the market of complicated and expensive electronics devices such as computer monitors, and more particularly notebook computers, printed circuit boards, and the like, the requirement arose for more sophisticated and better shock absorbing cushioning devices. Standards were developed for acceptance of cushioning devices, including drop tests and the like, to determine if such devices would protect the shock sensitive product from shock acceleration greater than the product's fragility level—typically, from 20 g's to 100 g's.
This has given rise to the use of such products as honeycomb cardboard, and particularly foamed polystyrene, foamed polyurethane, foamed polypropylene, or foamed polyethylene. Flexible foam devices are well known for use as corner pieces or edge pieces. Likewise, foamed polystyrene products—which are more rigid—are also well known for use as corner pieces or end caps; and very often, they are product specific in that they are particularly molded having a specific configuration for use with a particular product.
In general, however, flexible foam cushioning devices, and foamed polystyrene cushioning devices, are not recyclable. There are several reasons for that condition: The first is that flexible foam cushioning devices, and polystyrene cushioning devices, tend to be quite bulky, and are usually discarded with the packaging container in which the product has been shipped. There are very few specific recycling depots that are set up for either flexible foam or especially polystyrene cushioning devices; and, in any event, foamed polystyrene and foamed polyurethane cannot generally be recycled. Its re-usability may be provided for, particularly as general corner pieces, if they remain intact, or as product specific end caps; but, unless such foamed polystyrene cushioning devices are being used in a closed shipping system, they will not be recovered for re-use. Moreover, foamed polystyrene cushioning devices tend to be very frangible, and do not maintain their integrity very well once they have been used and removed from the packaging container in which they are shipped.
More elegant cushioning devices have more recently entered the market, comprising different types of blow-molded or other plastics shell products, most of which are closed structures which are filled with air or other gas. Some such structures are inflatable, some are closed, and some may be open to the atmosphere but are formed of a relatively rigid material. All such products are generally formed from high density polyethylene, which may be recycled because it is easily chopped up and made into further products, or such products may be re-usable if they are employed in a closed delivery and recovery system. Low density polyethylene may also be found in products such as those described immediately above, although its use is quite limited at the present time.
As will be discussed in greater detail hereafter, the present invention also provides a recyclable and re-usable product cushioning device which has a unitary construction and is formed of a plastics material. As will be noted, the present invention provides such a product cushioning device as a tray or cover, a clamshell, an end cap, a corner piece, or an end piece. However, the present invention does not present a closed structure, such as a number of prior art devices which are discussed hereafter; rather, the present invention provides a product cushioning device which is such that it may be stackable. This feature means that product cushioning devices in keeping with the present invention may be stored in much smaller storage volumes than previously may have been required at the factory or shipping warehouse where the products in association with which the product cushioning devices of the present invention will be used. Moreover, when the products have been delivered to the end user, the product cushioning devices may again be stacked for re-usability, or even roughly cut or chopped up for recycling of the material.
All embodiments of the present invention, as described in greater detail hereafter, provide cushioning and shock force absorption and/or transmission, and thus shock absorbing protection, for whatever product they are being used with, in at least two of three mutually perpendicular axes for which shock absorption protection is required—vertical, front-to-back, and side-to-side. In most embodiments of the present invention, apart from edge pieces, shock absorbing protection for a product is provided in all three mutually perpendicular directions.
DESCRIPTION OF THE PRIOR ART
U.S. Pat. No. 2,874,826 issued to MATTHEWS et al. is directed to a shock and vibration isolation device which, however, is not intended for being incorporated in a rectilinear container. Rather, this device is a resilient and inflatable jacket comprising a plurality of chambers, made of a rubberized fabric which is adapted to hold a gas under pressure, and which will be wrapped around a shock sensitive device such as a guided missile so as to provide a shock and vibration isolation container therefor.
GOBAN U.S. Pat. No. 3,294,223 teaches a molded plastic corner piece having the configuration of a triangular polyhedron which is either rounded or flattened at its apex. The purpose of the corner support is to entrap air between the molded plastic corner piece and the corner of the carton into which it is placed.
U.S. Pat. No. 4,905,835 issued to PIVERT et al. teaches inflatable cushion packaging wherein a plurality of chambers are inflated so as to provide cushioning which will absorb shock and thereby protect a shock sensitive product located in the centre of the container. The amount to which the balloon-like chambers may be inflated, and therefore their hardness, may be controlled.
FOOS et al. U.S. Pat. No. 5,226,543 teaches a packaging structure which includes both a platform portion and a sidewall portion, wherein the sidewall portion forms an enclosure around the platform portion. Essentially, this product is an end cap or platform. The sidewall has both inner and outer walls which are joined by a bridge section, and the inboard wall is relatively shorter than the outboard wall such that the platform portion holds the fragile article at a specific distance above the lower edge of the outboard wall. Shock absorbing formations—typically, notches—are formed in the bridge portion of the sidewall. These notches have a degree of elasticity such that, when the packaging structure is loaded and then unloaded, or shocked and
(Marks & Clerk)
Luong Shian
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