A missile 1 with a missile attachment 2 according to this invention. The missile attachment 2 consists of a tube 3 with a protruding section 4. The protruding section 4 has a concave forward facing surface area 5. The concave curvature is such that it is noticeable when the protruding section 4 is a
A missile 1 with a missile attachment 2 according to this invention. The missile attachment 2 consists of a tube 3 with a protruding section 4. The protruding section 4 has a concave forward facing surface area 5. The concave curvature is such that it is noticeable when the protruding section 4 is at the highest position on the tube 3. The tube is in the form of a cylindrical tube and is fitted to the missile 1 so that it encircles part of the missile and such that it can rotate continuously relative to the missile 1 during flight of the missile.
대표청구항▼
A missile 1 with a missile attachment 2 according to this invention. The missile attachment 2 consists of a tube 3 with a protruding section 4. The protruding section 4 has a concave forward facing surface area 5. The concave curvature is such that it is noticeable when the protruding section 4 is a
A missile 1 with a missile attachment 2 according to this invention. The missile attachment 2 consists of a tube 3 with a protruding section 4. The protruding section 4 has a concave forward facing surface area 5. The concave curvature is such that it is noticeable when the protruding section 4 is at the highest position on the tube 3. The tube is in the form of a cylindrical tube and is fitted to the missile 1 so that it encircles part of the missile and such that it can rotate continuously relative to the missile 1 during flight of the missile. etic tape. 6. The take-up reel of claim 4, wherein the length of the land section is greater than 10 times the thickness of the magnetic tape. 7. The take-up reel of claim 3, further comprising the first and second guiding surfaces are spaced at a distance, the distance is from 0.0002 inches to 0.0012 inches greater than the width of the magnetic tape and the guiding surfaces having a finish of at least 8Ra microinches. 8. The take-up reel of claim 7, wherein the distance is from 0.0002 inches to 0.0007 inches greater than the width of the magnetic tape. 9. A servo writer comprising: a) a mounting member; b) a rewind assembly plate slidably mounted to the mounting member; c) a take-up reel rotatably mounted to the mounting member; d) a rotatable idler guide operatively connected to the mounting member; e) a magnetic tape forming a tape pancake as the magnetic tape is wound around the take-up reel, and creating a tangent point where the magnetic tape contacts the tape pancake; f) a winding flange guide operatively connected to the rewind assembly plate, the guide comprising: i) a hub having a first end and a second end; ii) a first flange operatively connected to the first end of the hub, the first flange having a first guiding surface; and iii) a second flange operatively connected to the second end of the hub, the second flange having a second guiding surface; g) the winding flange guide positioned to contact the tape pancake at or after the point of tangency, wherein the tape pancake is guided between the first and second guiding surfaces; and h) a pack wheel operatively connected to the rewind plate assembly, the winding flange guide positioned between the pack wheel and the idler guide. 10. The servo writer of claim 9, further comprising the first flange and the second flange having a land section having a length that is less than 100 times the thickness of the magnetic tape. 11. The servo writer of claim 10, wherein the length of the land section is greater than 10 times the thickness of the tape media. 12. The servo writer of claim 11, further comprising the first and second guiding surfaces are spaced at a distance, the distance is from 0.0002 inches to 0.0012 inches greater than the width of the magnetic tape and the guiding surfaces having a finish of at least 8Ra microinches. -4828201, 19890500, Smith, 242/195; US-5155639, 19921000, Platter et al., 360/095; US-5979813, 19991100, Mansbridge et al., 242/332.4; US-6082652, 20000700, Theobald, 242/332.4; US-6318656, 20011100, Nemeth, 242/332.4; US-6322014, 20011100, Nemeth, 242/332.4; US-6398142, 20020600, Kletzl et al., 242/332.4; US-6540167, 20030400, Sasaki et al., 242/332.4
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