Universal adjustable sling type seat

A sling-type seat that can be used by hunters as a replacement for conventional treestand seats. The seat is attachable to an external support and/or frame, such as a tree trunk and treestand frame. The attachment is not limited to predefined attachment points and is thereby adjustable. The seat can be attached to a wide range of supports and/or frames and is therefore universal. Further, the seat is portable and may be rolled up and easily carried.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a universal, adjustable sling seat usable with a variety of different supports and frames and configurable for use in multiple positions to provide optimal comfort. The present invention is useful for hunters as a replacement for the conventional seat found in common treestands.

2. Description of Related Art

Known treestands currently on the market employ a conventional seat type consisting of a seat cushion and a back cushion. Standard treestand seats rely on these thick and bulky cushions for comfort.

Existing treestands most commonly include seats attached to the frame thereof in a fixed manner. There are some treestands with seats capable of limited adjustments in position. One such example is U.S. Pat. No. 7,370,728, Mann, which discloses a seat that can be attached to one of a finite number of predefined attachment points on the frame. However, the present disclosure provides a seat that is adjustable in its position relative to the supporting tree as well as in its position relative to the treestand frame. Additionally, the present disclosure provides a seat that is not limited to predefined attachment points. Thus, the present disclosure provides a seat with a greater degree of adjustability than conventional seats known in the prior art.

The seat of Mann '728 can only be used with the frame having predefined attachment points. The present disclosure provides a seat that is universally adaptable to attach to a variety of treestands or other frames without the necessity of any predefined attachment points. Therefore, the present disclosure provides a universal seat that is advantageous over the prior art.

BRIEF SUMMARY OF THE INVENTION

Disclosed herein is a universal, adjustable, sling-type seat that can be used with existing treestands. The disclosed seat is universal in that it is capable of use with a variety of treestands, as well as other supports and frames. The disclosed seat is adjustable in that it enables the user to select from a variety of attachment positions relative to the support and frame. As a result, the disclosed seat is more comfortable than conventional seats which provide limited attachment positions. The disclosed seat can be made from webbing, resilient materials, and metal hardware.

The disclosed sling-type seat does not rely on thick bulky cushions as in the prior art. This is advantageous in that it is less cumbersome and more portable than conventional seats. The disclosed seat is lightweight and compact and can be carried or stored in a rolled up configuration. In an exemplary embodiment, the disclosed seat is approximately 3 inches thick and 18 inches long when rolled up.

The disclosed sling-type seat is adapted to connect to a known treestand frame, wherein the disclosed seat replaces the existing seat. The disclosed seat may be connected to at least two points on the treestand frame and also includes at least one means for connecting to a tree. Moreover, the connection points to the frame and tree are each adjustable so that the user can select from a range of possible seating positions to achieve maximum personal comfort. Accordingly, the user will be seated in a semi-reclined position without the necessity of relying on the tree for back support.

It should be noted that the disclosed seat is capable of use with other supports, such as a free-standing frame which rests on the ground. Such a frame and the disclosed seat may be used to provide an alternative to existing portable chairs commonly used for camping, tailgating, etc.

In a further embodiment, the disclosed sling-type seat includes an extra safety feature when utilized on most treestands. The means for connecting to a tree may be a strap which is wrapped around the tree trunk. This tree strap will stay in place even if the user falls from the stand and the stand becomes dislodged from the tree. Therefore, the user (who is wearing a fall restraint device, as recommended when hunting or climbing from an elevated position) will be able to retrieve his or her stand and re-position it on the tree, effecting a self-rescue.

In yet a further embodiment, the disclosed sling-type seat includes one or more roll straps for securing the seat in its rolled up configuration.

DETAILED DESCRIPTION

In the following description, relative terms such as “upper,” “lower,” “top,” and “bottom” are with reference to the orientation shown generally inFIGS. 1-3.

As shown inFIGS. 1-5, the sling seat1has a first strap2, a main body defining a seat portion3, and a second strap4. The first strap2and second strap4are integrally attached to the main body3. The first strap2is parallel to the top edge3dof main body3. The second strap4is parallel to the bottom edge3cof main body3. An inner portion of first strap2is integrally attached to the top edge3dof main body3. An inner portion of second strap4is integrally attached to the bottom edge3cof main body3. The inner integrally attached portion of first strap2is coextensive with the top edge3d, i.e., the entire length of top edge3dis directly attached to a portion of first strap2. The inner integrally attached portion of second strap4is coextensive with the bottom edge3c, i.e., the entire length of bottom edge3cis integrally attached to a portion of second strap4. In a preferred embodiment, the inner integrally attached portion of the first strap2and the inner integrally attached portion of second strap4are sewn into the top edge3dand bottom edge3c, respectively, of the main body3. As shown inFIGS. 2 and 3, outer portions (i.e., “ends”) of the first strap2and second strap4extend on either side of main body3and are not directly attached to the main body3(i.e., are “free”). These outer portions are termed “free ends” in that they are not directly attached to the main body.

The first strap2includes a short arm2aand a long arm2b, with a first means for fastening5attached to the free end of the short arm2a. In a preferred embodiment, the first means for fastening is a cam lock buckle5. The illustrated cam lock buckle5is a conventional spring-loaded buckle that consists of a metal frame, a spring, and a release tab with gripping teeth. The cam lock buckle is designed so that the release tab grips the first strap2with increasing force as the weight on the strap increases. Thus, the cam lock buckle is preferred because it provides a secure, safe fastening of the first strap2around a support such as a tree trunk. Alternatively, the first means for fastening may comprise hooks, snaps, VELCRO, or any other mechanism capable of fixedly securing the free ends of the first strap together. The first means for fastening5may be attached to the end of the short arm2aby a variety of means. In the illustrated embodiment the buckle5is sewn to the first strap2.

The first strap2is adapted to wrap snugly around a support, such as a tree trunk, with long arm2bfastened to the free end of short arm2aby first means for fastening5to secure the first strap2in place.

The main body3is preferably made of a weather resistant, thin, light weight material. An example material suitable for this purpose is trampoline material. The main body3has a lower portion3aof a constant width and a tapered upper portion3b. The lower portion3aextends from the bottom edge3cof the main body3over approximately sixty percent (60%) of the height of main body3. The upper portion3btapers such that the width of lower edge3cis approximately 1.5 times greater than the width of top edge3d.

The second strap4is integrally attached to a first face of the wider bottom edge3cof the main body3. The second strap4has two free ends (i.e., outer portions which are not directly attached to the main body3, as defined hereinabove). The free ends are secured to one another and to the main body3by second means for fastening6and third means for fastening7. In a preferred embodiment, the second and third means for fastening,6and7, comprise two conventional floating bar-type buckles6and7, as illustrated in the attached drawings. Second means for fastening6and third means for fastening7are attached to the underside of the seat3. In the illustrated embodiment, the buckles6and7are attached to the underside of the seat by a third strap8sewn to a second face of the bottom edge of the seat, and buckles6and7are attached to third strap8at opposite ends of the third strap8.

As shown inFIG. 1, each free end of second strap4can be formed into a loop and wrapped around a frame, such as a treestand frame, at two or more attachment points. Second strap4is adjustably secured by the second and third means for fastening,6and7. When the seat of the illustrated embodiment is in use, the outermost portions of each free end of second strap4are fed through buckles6and7, looped over each floating bar, and then pulled back through buckles6and7in a direction opposing the initial feed direction so that each outermost portion extends out of each buckle and overlaps a second portion of each respective free end. Each free end of the second strap4is then tightened as necessary to secure the seat to1the frame.

In use, the seat1is attached to the support and frame such that the main body3is suspended between first strap2and second strap4, providing a sling-type seat in which the user reclines comfortably without the necessity of relying on the support (e.g., tree) for back support.

The first, second, and third straps2,4, and8may be made of any material capable of supporting the weight of the user. In a preferred embodiment, the straps are made from woven fabric webbing.

In another embodiment, one or more additional straps can also be provided to secure the seat1in its rolled up configuration. Such roll straps make it easier and more convenient to carry the sling seat1.

In the illustrated embodiment, the sling seat1has multiple levels of adjustability. First strap2and second strap4can each be selectively positioned on the support or frame at multiple possible attachment points. This provides one level of adjustability to the sling seat1. Second strap4can be looped around the frame with varying degrees of snugness, which will cause the bottom edge3cof the seat portion3to take on the shape and tension desired by the user.

Additional embodiments of the disclosed seat can utilize alternative fastening and/or attachment mechanisms having more limited adjustability but providing other benefits readily appreciable to one of ordinary skill in the art.

While preferred embodiments and example configurations have been shown and described, it is to be understood that various further modifications and additional configurations will be apparent to those skilled in the art. All such modifications and configurations are contemplated as being within the scope of the present invention. The specific embodiments and configurations disclosed are illustrative of the preferred and best modes for practicing the invention as defined by the appended claims, and should not be interpreted as limitations on the scope of the invention as defined by the appended claims. Accordingly, this invention includes all modifications and equivalents of the subject matter recited in the claims appended hereto as permitted by applicable law. Moreover, any combination of the above-described elements in all possible variations thereof is encompassed by the invention unless otherwise indicated herein or otherwise clearly contradicted by context.