Patent application number | Description | Published |
20080261485 | Turkey call - A turkey call having a hollow housing with a top surface and a bottom surface. A slate side is disposed between the top surface and the bottom surface. A wood side is disposed at an opposed surface from the slate side between the top surface and bottom surface. The wood side has a sounding board suspended between the top surface and the bottom surface, which resonates the top surface and the bottom surface. The slate side has a slate disposed thereon substantially coextensive with the slate side. The striker has a strike peg and a block member. The strike peg extends from a surface of the block member. | 10-23-2008 |
20100151769 | Turkey Call - The present invention provides methods and systems for a turkey call producing the sound of a turkey including a bottom side, a top side, a slate side and a two ends collectively forming a cavity therein. A flexible sounding board has a first end and a second end positioned within the cavity, wherein the sounding board is capable of vibrating and producing the sound of a turkey. The slate side having a slate disposed thereon, and a striker, the striker having a strike peg and a block member, the strike peg extending from a surface of the block member. | 06-17-2010 |
20110062258 | GRINDING AND DISPERSION DEVICE - The present invention provides a device for grinding and dispersing aquatic life including a tube having a first end and a second end, and a cap positioned on the first end. A second end includes a motor and a blade for grinding and dispersing aquatic life, wherein the aquatic life is inserted into the cylindrical tube through the cap, and the aquatic life moves down the tube towards the blade, whereby the aquatic life is ground and then dispersed into the water. | 03-17-2011 |
Patent application number | Description | Published |
20090020931 | LOAD BEARING SURFACE - An elastomeric load bearing surface with different load support characteristics in different directions. In one embodiment, the surface includes an elastomeric membrane that is oriented in only a single direction, for example, by compression or stretching. In another embodiment, the surface includes mechanical structures, such as connectors, variations in thickness and apertures, that vary the load support characteristics in different directions. In another aspect, the present invention provides a multilayer load bearing surface in which the layers cooperate to provide a controlled force/deflection profile that is variable in different regions of the surface. In one embodiment, the upper layer includes a plurality of loosely connected nodes and a lower layer having a plurality of resilient elements that separately support each node. | 01-22-2009 |
20090020932 | LOAD BEARING SURFACE - An elastomeric load bearing surface with different load support characteristics in different directions. In one embodiment, the surface includes an elastomeric membrane that is oriented in only a single direction, for example, by compression or stretching. In another embodiment, the surface includes mechanical structures, such as connectors, variations in thickness and apertures, that vary the load support characteristics in different directions. In another aspect, the present invention provides a multilayer load bearing surface in which the layers cooperate to provide a controlled force/deflection profile that is variable in different regions of the surface. In one embodiment, the upper layer includes a plurality of loosely connected nodes and a lower layer having a plurality of resilient elements that separately support each node. | 01-22-2009 |
20090267262 | ORIENTED PACKAGE COMBINATION FOR A MOLDED ELASTOMERIC PRODUCT - A method of packaging a molded elastomeric material includes the steps of (a) molding an elastomeric product; (b) orienting the elastomeric product by stretching or compressing the elastomeric product; (c) retaining the elastomeric product in an at least partially stretched or partially compressed configuration by mounting or securing the elastomeric product to a shunt; and (d) releasing the product from the shunt, whereby the product is capable of shrinking or expanding to its final position after it is removed from the shunt. | 10-29-2009 |
20090302662 | Suspension seating - A suspension seating structure having a body support assembly which includes a membrane formed from at least one strap spanning across an opening. Each strap is coupled to a frame member through a retaining structure. The retaining structure is coupled with or forms part of each frame member and provides a structurally secure body support assembly. A cushion material encapsulates the membrane, where the cushion material contains relief channels to permit the membrane to respond more freely in response to a load. | 12-10-2009 |
20100021685 | MULTI-LAYERED SUPPORT STRUCTURE - A multi-layered support structure provides ergonomic, adaptable seating support. The multi-layered support structure includes multiple cooperative layers to maximize global comfort and support while enhancing adaptation to localized variations in a load, such as in the load applied when a person sits in a chair. The cooperative layers each include elements such as pixels, springs, support rails, and other elements to provide this adaptable comfort and support. The multi-layered support structure also uses aligned material to provide a flexible yet durable support structure. Accordingly, the multi-layered support structure provides maximum comfort for a wide range of body shapes and sizes. | 01-28-2010 |
20100243856 | LOAD BEARING SURFACE - An elastomeric load bearing surface includes an integral attachment mechanism, wherein portions of the load bearing surface attach to each other to secure the load bearing surface to a support structure. In one embodiment, a molded elastomeric strip includes a tab that wraps around a support structure frame member, and a receptacle that receives and retains the first portion. The load bearing surface may be formed from a plurality of molded elastomeric strips, each having a tab extending around the frame member and an opening receiving the tab. The strips may be oriented to reduce creep by aligning the crystalline structure of the elastomer in one direction. | 09-30-2010 |
20100253128 | SUSPENDED PIXELATED SEATING STRUCTURE - A suspended pixelated seating structure provides ergonomic, adaptable seating support. The suspended pixelated seating structure includes multiple cooperative layers to maximize global comfort and support while enhancing adaptation to localized variations in a load, such as in the load applied when a person sits in a chair. The cooperative layers each use independent elements such as pixels, springs, support rails, and other elements to provide this adaptable comfort and support. The suspended pixelated seating structure also uses aligned material to provide a flexible yet durable suspended seating structure. Accordingly, the suspended pixelated seating structure provides maximum comfort for a wide range of body shapes and sizes. | 10-07-2010 |
20120018607 | MOLDED LOAD BEARING SURFACE AND METHOD OF MANUFACTURE - The present invention provides a load bearing surface assembly having an oriented, molded load bearing surface intersecured with a relatively rigid orienting member. The characteristics of the orienting member are selected such that the orienting member provides a rigid edge member for holding the load bearing surface during the orienting process and/or for mounting the load bearing surface to a support structure. In one embodiment, the load bearing surface includes a pair of orienting members mounted to opposed edges of the load bearing surface. The load bearing surface may be integrally molded into a unitary construction with the orienting member(s). The present invention also provides methods for manufacturing a load bearing surface having an orienting member and a load bearing surface assembly with a load bearing surface and an orienting member. | 01-26-2012 |
20120086144 | APPARATUS AND METHOD FOR MANUFACTURING A LOAD BEARING FABRIC SURFACE - An apparatus for forming molded edges on opposite sides of a load bearing surface including a stretching assembly integrated into a molding assembly. The stretching assembly may include localized fabric clamps that leave the center region of the fabric free (e.g. not clamped) through the process. The clamps may be arranged so that once extended to stretch the fabric, the fabric is held by the clamps in the appropriate position for molding. The fabric may be held so that opposed edges terminate in the mold cavities. The mold parts may cooperatively define two spaced apart mold cavities, and may include a mold pocket to provide space to store excess fabric. The fabric may be held against the surface of the mold cavity during the molding process, for example, using hold-down pins and special gate configurations. The molding apparatus may include an alternative stretching assembly configured to provide different amounts of stretch to different portions of the fabric blank. The alternative stretching assembly may include additional intermediate clamps. | 04-12-2012 |
20120153536 | PRE-DEFORMED THERMOPLASTICS SPRING AND METHOD OF MANUFACTURE - A thermoplastic spring and a method for manufacturing the thermoplastic spring are provided to reduce the effect of creep during use of the spring. The spring is molded and deformed to final dimensions by pre-inducing creep in the molded body. | 06-21-2012 |
20120237719 | LOAD BEARING SUPPORT SURFACE - A load bearing surface assembly includes a molded component of oriented elastomeric material and an attachment loop connected to the molded component, the attachment loop configured to receive a frame member supporting the assembly. | 09-20-2012 |
20130283492 | PERSONAL EQUIPMENT SUSPENSION SYSTEM WITH ACTIVE LUMBAR SUPPORT - A personal equipment suspension system with active support to the lumbar region includes a belt to surround the user's waist and a frame supported on the belt with a resilient membrane of synthetic elastomeric crystalline material in tension on the frame to be interposed between the belt and the user. The frame includes spaced ends and the membrane is a lattice in tension between the spaced ends. In one embodiment, the system is a support belt. In another, it is load bearing such as a backpack configuration. In another, it includes stanchions to support a body armor vest. | 10-31-2013 |
20130312230 | ONE-PIECE ZIPPER PULLER - A zipper puller ( | 11-28-2013 |
20140298658 | Method For Manufacturing A Multi-Layered Support Structure - A method for manufacturing a multi-layered support structure provides ergonomic, adaptable seating support. The method providing multiple cooperative layers to maximize global comfort and support while enhancing adaptation to localized variations in a load, such as in the load applied when a person sits in a chair. The cooperative layers each include elements such as pixels, springs, support rails, and other elements to provide this adaptable comfort and support. The method for manufacturing the multi-layered support structure uses aligned material to provide a flexible yet durable support structure. Accordingly, the method provides a multi-layered support structure, which provides maximum comfort for a wide range of body shapes and sizes. | 10-09-2014 |