Slain animal transporting device and method of use

A slain animal transporting device has a series of elongated flexible members each having a slip knot at one end to snugly secure about any variety of body parts of a slain animal, and a user loop at an opposite end which, depending upon the terrain and thus most efficient angle of pull, directly attaches to a wrist, torso or shoulder of at least one user/sportsman. When the user loop is strapped about the wrist, the angle of pull is relatively low which is ideal for smooth terrain. When the user loop is strapped about the torso or shoulder of the sportsman, the angle of pull is greater and thus more ideal for rough terrain such as dense wooded areas. The elongated flexible members are easily coiled for compact storage thus providing easy transportation amongst the portable gear of the mobile sportsman. The straps can be arranged in parallel, enabling multiple sportsmen to drag a single slain animal, or, any number of straps can be slip knotted end-to-end to create a single and extra long transporting device. Moreover, multiple straps can be provided as a set having varying lengths and sizes to meet the demands of different wilderness terrains, and game sizes and types.

TECHNICAL FIELD

This invention relates to a slain animal transporting device and more particularly to a slain animal transporting device which is coiled when stored.

BACKGROUND OF THE INVENTION

Hunters and particularly sportsmen typically hunt their game within a wilderness environment often in remote locations far from traveled roads and automotive transporting. Once the game is slain, the animal must be transported to a civilized establishment for gutting, skinning, meat processing, and/or trophy mounting. Particularly when the slain animal or dead game is heavy, such as elk or deer often exceeding one hundred pounds, dragging of the carcass over rough wilderness terrain is difficult and sometimes impossible for one person to handle. This is particularly true when the terrain comprises exposed roots, twigs, rocks, and other projections which can snag the carcass and prevent forward movement. The dragging of heavy carcasses such as deer is further aggravated by the inability of one sportsman to assist another in the dragging of a single carcass because of a lack of space near the grab locations of the slain animal. Moreover, known devices for transporting of game are often bulky and not easily stored within the backpack or carrying cases of the hiking sportsmen.

SUMMARY OF THE INVENTION

A slain animal transporting device has a series of elongated flexible members each having a slip knot at one end to snugly secure about any variety of body parts of a slain animal, and a user loop at an opposite end to engage to or provide a gripping means for the user/sportsman. The elongated flexible members are easily coiled for compact storage and easy transportation amongst the portable gear of the mobile sportsman. The straps can be arranged in parallel, enabling multiple sportsmen to drag a single slain animal, or, any number of straps can be slip knotted end-to-end to create a single and extra long transporting device. Moreover, multiple straps can be provided as a set having varying lengths and sizes to meet the demands of different wilderness terrains, and game sizes and types.

Advantages of the present invention include a durable, rugged and inexpensive means to transport a wide variety of slain animals from a wide variety of wilderness terrains. Moreover, the transporting device of the present invention enables teamwork from multiple sportsmen to drag a single carcass. Yet still, the transporting device is compact when stored and light for easy storage and transporting by the mobile sportsman.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIG. 1 , a slain animal transporting device 10 has three flexible elongated members or straps 12 a , 12 b , and 12 c used as a set and distributed amongst three respective sportsmen 14 a , 14 b , and 14 c in various orientations to drag the carcass of a slain animal 16 . All three members 12 a-c have a slip knot 18 at one end which secures to an antler base 20 of the carcass 16 which may be any variety of species including that of buck deer, elk and moose. The other end of each member 12 a-c has respective user loops 22 a-c which secure to or are held by the respective users or sportsmen 14 a-c . The elongated members 12 a-c of the transporting device 10 have varying lengths which enable the sportsmen 14 a-c to align themselves in a near single file line (not shown) thus concentrating their pulling efforts in a near forward direction only, as oppose to wasting effort in opposing lateral directions.

The elongated members 12 a-c are illustrated as flexible straps which are easily coiled and stored as a compact unit within the confines of a sportsman's back-pack. The elongated members 12 a-c may also be made of a rope, cable or other flexible member, however, storage of such items may require additional space. Each strap 12 a-c have respective tensile lengths 32 a-c extending between the slip knot or choke loop 18 , which wraps about the antlers 20 of the slain animal 16 , and the respective user loops 22 a-c , which secure comfortably about a variety of body portions of the sportsmen, such as the wrist 24 for flexible member 12 a and/or 12 c , or the torso section 26 for flexible member 12 b . The tensile lengths 32 a-c of the straps 12 a-c can be of varying lengths and positioned substantially in parallel to one another, so that a series of sportsmen 14 a-c , as best illustrated in FIG. 1 can all contribute toward the pulling of the slain animal without crossing each other's paths. Moreover, the straps 12 a , 12 c having the respective user loops 22 a , 22 c which engage the wrists 24 preferably have shorter tensile lengths 32 a , 32 c than the strap having the torso user loop 22 b . This is because, the wrist user loops 22 a , 22 c combined with the shorter tensile lengths 32 a , 32 c are better suited for orientating or steering a carcass 16 as it is dragged through dense brush. In wilderness areas of lower brush density, the straps 12 a-c may be slip knotted to one another in series producing a much longer transporting device 10 .

When the straps 12 a-c are pulled taught, the tensile lengths 32 a-c are at a slight angle since the user loops 22 a-c typically engage a portion of the sportsman's body which is higher than the elevation of the slain animal 16 . This tends to slightly lift the head section of the animal upward thereby providing a ramp surface 25 of the carcass typically or generally at the neck section which can elevate the carcass over protruding obstructions on the wilderness floor thereby producing a type of sledding effect, as best shown in FIG. 1 .

Referring to FIGS. 2-6 , each slip knot 18 comprises a small sub-loop 28 at a distal end of each strap 12 a-c and a slip section 30 of each strap 12 a-c . The slip knot 18 is formed by feeding the respective user loop 22 a-c and a majority portion of the respective tensile length 32 a-c of the particular strap 12 a-c through the sub loop. As best shown in FIG. 2 , the slip knot 18 is initially formed and performs preferably about the base 20 of the antlers which typically spread out in a wide array. As the sportsmen 14 a-c pull upon the respective user loop 22 a-c , creating a tension through the tensile length 32 a-c of the strap 12 a-c the diameter of the slip knot 18 becomes ever smaller until the knot 18 tightens about the base 20 of the antlers and the sub loop 28 engages and pulls laterally tightly against the slip section 30 of the tensile length 32 a-c , as best shown via arrow 34 of FIG. 2 . Referring to FIG. 3 , the slip knot 18 is inherently adjustable depending upon the slain animal type and size and thus uses varying lengths of the tensile length 32 a-c as the slip section 30 . For instance, if the slain animal 16 is a doe, as opposed to an antlered buck, the slip section 30 should typically loop about or encircle a neck 36 of the doe thereby requiring a larger loop diameter which would increase the length of the slip section required.

The strap 12 a-c as illustrated has a flat first side 38 which forms the outward facing radial surface of the user loop 22 a-c and the sub loop 28 . An opposite flat second side 40 of the strap 12 a-c forms the inward facing radial surface of the user and respective sub loops 22 a-c , 28 . Of course this order may be reversed for any one or both loops depending upon how the loops are fabricated. When the slip knot 18 is formed, as previously described, the second side 40 or inner surface of the sub loop 28 is generally engaged directly to either the first or second sides 38 , 40 along the slip section 30 of the tensile length 32 a-c . The second side 40 of the user loop 22 a-c or inner surface is engaged directly against a portion of the sportsman's body. For instance, as best shown in FIG. 4 , the second side 40 is engaged directly to a back side of the wrist 24 of the user's hand, while the gripping fingers and thumb are generally in direct contact with the first side 38 at a connection joint or grip section 44 of the user loop 22 a , 22 c . In this orientation, the majority of the pulling force or stress is placed upon the back of the hand or back of the wrist 24 , thus easing any stress placed upon the fingers which would otherwise become fatigued over time. Similarly, as best shown in FIG. 5 and with a larger user loop 22 b , the second side 40 forming the inner surface of the larger user loop 22 b is engaged against the torso section 26 or across the shoulder blades of the user 14 b , if the user is walking backwards, or it may be engaged against the chest of the torso section 26 of the user 14 b , if the user is walking forward, as best shown in the middle sportsman of FIG. 1 . The point being, the transporting device 10 is highly versatile and permits a wide variety of user positions necessary to transport the slain animal 16 .

Both the user loop 22 a-c and the respective sub loop 28 are not twisted unto themselves and are thus capable of folding flat. More specifically, the respective connection joints 44 of the loops 22 a-c , 28 are formed by direct engagement of the second side 40 at the distal ends of the strap 12 a-c being looped and engaged back to the second side carried by respective user and slip sections 45 , 30 of the tensile length 32 a-c . This engagement is created via a cross-stitching 46 through the strap material as best shown in FIG. 7 .

The material of the strap 12 a-c is preferably made of nylon or some other material capable of withstanding prolonged moist or humid environments and having a high tensile strength. In addition, nylon is preferable because it can be cut with a hot iron thus melting the cut ends to prevent fraying of the weaved nylon. The width of the sides 38 , 40 is approximately within the range of three quarters of an inch to two inches. A one inch width is preferred because a smaller width of a strap would uncomfortably press into the wrist or torso of the user 14 a-c when pulling a slain animal weighing substantially over the one hundred pounds, and a wider width would require more space to store, are excessively strong, and more expensive. Moreover, widths created in excess of two inches in hopes to supply comfort for the user are considered unnecessary since gloves, coats, jackets, or the like will provide a cushioning effect beneath the user loop 22 a-c of the strap 12 a-c . One example of a one inch wide nylon strap having a tensile strength of 3,800 pounds is model number N0019, manufactured by Tapecraft Corporation of Anniston, Ala. This particular strap is made of a tubular weave. The weave of the strap bit can also be supplied in a more expensive herringbone weave should greater strength be desired. The stitching 46 is made of a material with similar properties to nylon and is preferably polyester.

Referring to FIG. 8 , since the transporting device 10 is made of a flat strap material, the device can be neatly coiled within a dense package and thus easily stored within the backpack or tackle box of the traveling sportsman 14 a-c . Similarly, the transporting device can be neatly coiled for display purposes, mailing or delivery. Multiple coiled straps 12 a-c of the device 10 , whether or not having differing lengths, can be stacked upon one another in a co-axial arrangement to further benefit packaging.

While the forms of the invention herein disclosed constitute presently preferred embodiments many others are possible. It is not limited herein to mention all of the possible equivalent forms or ramifications of the invention. It is understood that the terms used herein are merely descriptive rather than limiting and that various changes may be made without departing from the spirit or scope of the invention.