Abstract:
A compressible decoy construction involves a thin rubber roto molded outer shell lined with a thicker layer of foam rubber. The interior of the decoy is hollow, thus allowing the decoy to be folded or compressed into a small mass such that when the compressive force is removed, the decoy returns to its full shape due to the memory of the foam rubber lining.

Description:
FIELD OF INVENTION 
       [0001]    This invention relates to hunting and decoys used in hunting. More specifically the invention relates to portable decoys that can be stowed for transport and then deployed by at hunter in the field. In even greater particularity, the invention relates to decoys that can be compressed for transport such that a number of decoys can be carried and then released from compression to return to their shape emulating a game animal or some other decoy. In still greater particularity, the present invention relates to compressible decoys that have a shape memory such that they return to the original shape once compression is released 
       BACKGROUND 
       [0002]    The use of decoys is well known in the hunting industry including hand carved wooden duck decoys, rigid deer decoys, inflatable turkey decoys and a myriad of other decoys that the hunter must transport to the field to try to provide the game animal with a sense of safety due to the presence of other similar animals. Of course, the hunter must transport these decoys to the field each time he wishes to use them and the bulk of some rigid or wooden decoys clearly limit the number of decoys that can be transported, even on an all- terrain vehicle. Inflatable decoys develop leaks and may not present a realistic look after several uses and may be too lightweight to remain in a non-threatening posture in the field. Consequently there is a need for a collapsible and re-deployable decoy that conserves space and presents a realistic appearance. 
         [0003]    This invention embodies a new type of decoy used for turkey hunting. Its construction involves a thin rubber roto molded outer shell lined with a thicker layer of foam rubber. The interior of the decoy is hollow, thus allowing the decoy to be folded or compressed into a small mass. When the compressive force is removed, the decoy returns to its full shape due to the memory of the foam rubber lining. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0004]    Referring to the drawings which are appended hereto and which form a portion of this disclosure, it may be seen that: 
           [0005]      FIG. 1  is perspective view of my improved decoy in the form of a turkey; 
           [0006]      FIG. 2  is a sectional view of my improved decoy along a vertical axis; 
           [0007]      FIG. 3  is bottom view of my improved decoy. 
       
    
    
     DETAILED DESCRIPTION 
       [0008]    One or more of the above objects can be achieved, at least in part, by providing a decoy  10  that does not require inflation but can be compressed to reduce volume. The preferred material for construction of the self-restoring decoy  10  are as follows: The decoy  10  includes an outer shell  11  which must be a rubberized material that can be roto- molded and will return to its original shape after being crushed or deformed due to an external force applied by the hunter. The shell is molded in the shape of a wild animal with detailed features of the wild animal molded thereon. Rotational Molding, also called roto- molding or roto-cast, is a thermoplastic process for producing hollow parts by placing powdered resin into a hollow mold and then rotating that mold bi-axially in an oven until the resin melts and coats the inside of the mold. Materials that may be used to fabricate the decoy shell  11  include Polyethylene including LLDPE, LDPE, HPPE, Cross-Linked or Recycled/Regrind; Polyvinyl chloride (PVC); Nylon; Polypropylene; and Thermoplastic Polyester Elastomers TPE. However, the outer shell  11  must be resilient, permeable and flexible as well as compatible with a rubberized paint such that the paint providing the proper coloration for the decoy does not flake or chip off when the decoy is rolled up or crushed. To the best of my knowledge, PVC rubber is the best choice as it can be roto-molded to capture extreme detail and also makes a chemical bond to a layer of flexible paint, thus eliminating chipping and peeling of the paint. Any roto-moldable rubber compound would work provided it possessed these qualities. 
         [0009]    The Decoy also includes an inner layer  13  of open cell foam of polyethylene, polypropylene or poly styrene affixed to the inner surface of shell  11  from adjacent an opening  21  in a bottom portion  23  of shell  11  contiguous and coextensive with the inner surface, thus forming an inner hollow core which communicates with opening  21 . However, the foam layer  13  must possess the following qualities: It must be compressible, thus open cell foam rubber such as those made of polyurethane is the best choice as the air can escape from the voids allowing it to be compressed to a minimum volume. Additionally, the decoy must return to its original shape and volume once compressive forces are removed. Closed cell foam entraps air bubbles and thus cannot be compressed to a minimum volume. There may be other materials that would meet this function, but for cost and availability, open cell foam rubber is the best choice. 
         [0010]    As far as the manufacturing process goes, roto-molding is the best choice for the outer shell  11 . Roto-molding allows the part to pick up fine details of the animal features that are a must have in today&#39;s high end decoy market and roto-moldable resins have superior paint adhesion. While the outer shell  11  could be blow molded, it would lack the necessary detail and would restrict material choices to extrude-able polymers. Further, extrude-able polymers that are flexible are notoriously difficult to paint or decorate due to their low surface tension. 
         [0011]    Due to the low tensile strength of the decoy material, a small support plate made  15  of die cut plastic sheet with a grommet  17  must be mounted to the balance point of the inside surface of the decoy on a region corresponding to the back of the decoy animal such that the decoy balances in the proper posture when placed on a stake  19  for use in the field. In practice, a hunter would manually compress the decoy to the minimum size desired and secure the compressed decoy with a strap or compression sack for transport to the field. At the field, decoy would be released from compression and return to its normal shape. The restored decoy could then be placed on stake  19 . 
         [0012]    Once the outer layer  11  has been molded and the grommet  17  has been installed, there are two options for installing the foam rubber layer  13 . One option is to roto-mold an expanding foam layer on the interior surface of the outer shell  11 . This would allow the foam rubber to be bonded to the inner surface of the outer shell while maintaining a hollow core. However, roto-molded expanding foam would be difficult to control a consistent wall thickness. A second option, and probably the most affordable, is to install a fabricated foam rubber liner into the outer shell using an adhesive to secure the two layers. In either option, the outer shell is secured to the foam rubber layer via an access hole  21  cut into the underbelly or bottom portion  23  of the decoy  10 . 
         [0013]    While in the foregoing specification this invention has been described in relation to certain embodiments thereof, and many details have been put forth for the purpose of illustration, it will be apparent to those skilled in the art that the invention is susceptible to additional embodiments and that certain of the details described herein can be varied considerably without departing from the basic principles of the invention.