초록 ▼

An improved device for reflecting, radiating, or receiving electromagnetic radiation, acoustic waves, or other energy forms through the use of a membrane stretched across a lightweight, round, frame structure. A near perfectly round and flat semi-rigid backplane surface (1) and a near perfectly roun

An improved device for reflecting, radiating, or receiving electromagnetic radiation, acoustic waves, or other energy forms through the use of a membrane stretched across a lightweight, round, frame structure. A near perfectly round and flat semi-rigid backplane surface (1) and a near perfectly round ring or stack of rings (2) are mutually reinforced, forming a raised circumferential planar surface, and a cavity within. A membrane (3) is attached to the top of the rings, forming one wall of a sealed chamber. A source of sub-ambient pressure (4) is applied to the chamber, causing a primary uniform deformation in the membrane for the purpose of manipulating electromagnetic radiation, acoustic waves, or other energy. The backplane surface also deforms uniformly, increasing the strength of the structure. A flat, rigid floating batten (5) prevents waves or wrinkles from forming in the membrane material. A circumferential heating element (6) and insulation (7) provides tensioning of the membrane by slightly controlling the circumference of the device.

대표청구항 ▼

What is claimed is: 1. An improved design for a reflector, radiator, or receiver of electromagnetic, acoustic, or other energy, comprising a frame structure that provides a near-perfectly round shape with a raised planar circumferential surface, and creating an internal cavity within, a non-porous

What is claimed is: 1. An improved design for a reflector, radiator, or receiver of electromagnetic, acoustic, or other energy, comprising a frame structure that provides a near-perfectly round shape with a raised planar circumferential surface, and creating an internal cavity within, a non-porous reflective, transmissive, translucent or opaque membrane or plurality of membranes, a means of attaching and sealing said membrane material to said raised planar surface, and to each other in the case of multiple membranes, such that a sealed cavity results between said frame structure and said membrane or membranes, a means of applying sub-ambient or super-ambient pressure to said sealed cavity, deforming said membrane or membranes thereby resulting in membrane deformations which are capable of manipulating electromagnetic, acoustic, or other energy, wherein improvements are comprised of a near perfectly flat and round semi rigid planar structural surface element, having parallel opposed major faces with predetermined distance between them, and predetermined fill material contained within a near perfectly round ring element or plurality of ring elements that provide circumferential reinforcement, having a predetermined cross-sectional shape, being of a predetermined material, and having a predetermined rigidity, a means of attaching said planar surface to said ring, and said rings to each other, thus forming a near-perfect raised circumferential planar surface with an internal cavity, a means of attaching and sealing said membrane or plurality of membranes to said circumferential planar surface, and also to each other, a means of applying sub ambient or super ambient pressure, thereby resulting in membrane deformations which are capable of manipulating electromagnetic, acoustic, or other energy, and thereby also inducing a lesser convex or concave deformation into the semi-rigid structural planar backplane material a means of inhibiting wrinkles in said non-porous membrane elements comprising a circular floating batten element, formed inside the circumference of said membrane element comprised of an annular, flat, batten of slightly less circumference than the membrane, of a predetermined material, of a predetermined width and thickness, with a predetermined rigidity, and constructed as one piece, or in sections, a means of attaching said batten to said membrane or membrane elements with a predetermined strength and flexibility, such that said batten is solely supported by said non-porous membrane element a means of dynamically tensioning said non-porous membrane or plurality of membranes. 2. The apparatus of claim 1 wherein said round frame structure for use in supporting said membrane is comprised of a near perfectly fiat and round semi rigid planar surface element, a near perfectly round ring or stack offing elements that provides circumferential reinforcement, being of any material, being hollow or solid, and with any cross sectional shape, a means of attaching said planar surface to said ring or rings, thus forming a near-perfect raised circumferential planar surface with an internal cavity, a means of attaching and sealing a membrane to said circumferential planar; surface, a means of applying sub ambient or super ambient pressure for the purposes of inducing a uniform concave or convex deformation to the membrane surface for the purpose of reflecting, radiating, receiving or other manipulations of said electromagnetic, acoustic, or other energy, and also inducing a strengthening uniform convex or concave deformation into the semi-rigid backplane material. 3. The apparatus of claim 1 wherein said round frame structure for use in supporting said membrane is comprised of a near perfectly flat and round semi rigid planar surface element, a near perfectly round ring or stack of ring elements with any cross sectional shape that provides circumferential reinforcement, a means of attaching said planar surface to said ring or rings, thus forming a raised circumferential planar surface with an internal cavity, a means of attaching and sealing two membranes to said circumferential planar surface, a means of applying super ambient pressure between the inboard and outboard membranes for the purpose of inducing a uniform convex deformation in the outboard membrane, and for inducing a concave deformation to the inboard membrane Surface for the purpose of said reflecting, radiating or receiving or other manipulations of said electromagnetic, acoustic, or other energy, and providing a means of venting the area between the inboard membrane and the backplane material. 4. The means of dynamically tensioning said non-porous membrane or plurality of membranes of claim 1, comprising a thermal size adjuster for uniformly adjusting the circumference of said round structure, comprised of a circumferential heating element a means of attaching said heater to said circumferential ring or rings, an insulating material to minimize the heat loss from said heater a means of attaching said insulating material to ring or rings. 5. The apparatus of claim 4, wherein the method of applying heat is solar, comprising a solar absorbing material attached to the outer face of the membrane material, a means of attaching said solar absorbing material, an underlying heat conductive material to conduct heat from the solar absorbing material to the ring or stack of rings, an insulating layer covering the portion of said underlying heat conductive material not already covered by the solar absorbing material. 6. The apparatus of claim 4, wherein the method of applying heat is an electrical resistance heater, comprised of a circumferential resistance heater, a means of attaching said circumferential heater to the circumference of the said round frame structure, a means of applying and controlling electricity to said resistance heater an insulating layer covering the circumferential heater and underlying layers.