子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Automatic recording tape splicer | US20243662 | 1962-06-14 | US3152227A | 1964-10-06 | DURIO JOHN R |
| 82 | Tape connector | US12850461 | 1961-08-01 | US3121931A | 1964-02-25 | BENNY DIAZ |
| 83 | Splicing device for magnetic tape | US29166352 | 1952-06-04 | US2668576A | 1954-02-09 | NICHOLS RALPH M |
| 84 | Means for and method of making joints | US43735042 | 1942-04-02 | US2344615A | 1944-03-21 | JAMES JOHN H; MILLER HARRY B |
| 85 | Sound picture record | US28867628 | 1928-06-27 | US2030098A | 1936-02-11 | WILLARD CASE THEODORE |
| 86 | 테이프절단장치 | KR1020020056696 | 2002-09-18 | KR100470291B1 | 2005-02-07 | 코마이히로카즈 |
| The tape cut-out apparatus, having: a control unit for storing a defect positional information showing a position of a defective portion of magnetic tape and, for outputting a predetermined winding length in accordance with the defect positional information; a winding device for drawing out the magnetic tape by an input predetermined winding length, winding it onto a reel and cutting it, and detecting a winding length to the reel and outputting the winding length to the control unit; and, a correcting unit for correcting the input predetermined winding length according to an accuracy of detecting the winding length of the winding device, and correcting an actually measured winding length when the magnetic tape is wound according to an accuracy of detecting the winding length and for outputting the corrected value of the actually measured winding length to the control unit. | ||||||
| 87 | 테이프를릴에부착하는구조및방법,테이프변형장치및테이프카세트 | KR1019960705110 | 1996-01-17 | KR100394518B1 | 2003-11-20 | 히구치신타로; 아베신이치; 혼마히로유키; 세키무카이히로시; 아베마사노리 |
| An attachment structure for a tape body which supports, on reel hubs, a tape body such as a leader tape, etc. to which a magnetic tape is connected. This attachment structure comprises a tape reel provided with a reel hub which takes cylindrical shape provided at the central portion thereof and a clamp member attached to the reel hub, and a tape body connected to the reel hub in the state where the end portion is supported by the clamp member and wound on the outer circumferential surface of the reel hub. The tape body supported by the reel hub is such that the base end portion side serving as root portion of the drawing side from the reel hub is deformed in the winding direction onto the reel hub following the outer circumferential surface of the reel hub. Deformation of the tape body is carried out by thermal deformation or pressure deformation, or thermal deformation and pressure deformation. The root portion serving as the supporting portion side onto the reel hub of the tape body is deformed following the outer circumferential surface of the reel hub, whereby the tape body is wound in the state closely in contact with the outer circumferential surface of the reel hub. | ||||||
| 88 | 테이프절단장치 | KR1020020056696 | 2002-09-18 | KR1020030025826A | 2003-03-29 | 코마이히로카즈 |
| PURPOSE: To provide a tape cutting-out device capable of accurately controlling a winding length by matching an actually measured winding length by a winding means with a designated winding length. CONSTITUTION: This tape cutting-out device is provided with a control means for storing defect position information indicating the position of the defective part of a magnetic tape 41 wound on a magnetic tape roll 40 and outputting a designated winding length based on the defect position information, and a winder 14 for pulling out the magnetic tape 41 of the entered designated winding length from the magnetic tape roll 40, winding it on a reel 44 to cut it, and detecting the winding length on the reel 44 to output it to the control means 20. A correcting means 43 is provided to correct the entered designated winding length in accordance with the detection accuracy of the winding length of the winder 14, and correcting the actually measured winding length of the magnetic tape 41 detected during winding the tape on the reel 44 in accordance with the detection accuracy of the winding length to output the corrected length to the control means 20. | ||||||
| 89 | 조립 기계 장치에서 스트립과 유사한 또는 테이프와유사한 매체를 분할하기 위한 장치 | KR1020010064250 | 2001-10-18 | KR1020020031053A | 2002-04-26 | 슈레터,만프레드; 크라우스,만프레드; 쉐이데커,리챠드 |
| PURPOSE: A device and method for dividing strip-like or tape-like media in assembly machines is provided to divide a magnetic tape in automatic spooling machines. CONSTITUTION: A device for dividing media comprises a pneumatic linear guide unit(12) with fitted stroke limiting units, a media(20) being movable on a support in a first direction. A carriage(11) has a linear movement in a direction running transversely with respect to the first direction. A holder(7) is attached to the carriage and a knife(2) is attached to the holder by way of a rotatable shaft(3). Constructional elements convert linear movement of the carriage into a rotational movement of the knife. The knife cuts transversely through the media while the tape is firmly held on the support. | ||||||
| 90 | Reinforced tape for a data storage device | US11615423 | 2006-12-22 | US07940496B2 | 2011-05-10 | William J. Vanderheyden |
| A data storage device is disclosed with a housing sized for a tape drive. A tape reel is mounted for rotation within the housing and a guide is mounted in the housing spaced apart from the tape reel. A first end of a data tape segment is mounted to the tape reel and a second end is not mounted to the tape reel. A structural tape segment has a pair of ends mounted between the first and second ends of the data tape segment for structurally enhancing an intermediate region of the data tape segment. In another embodiment, a structurally enhanced intermediate region is advanced to a read/write region of the data storage device during storage of the device for preventing inadvertent damage to the data tape. | ||||||
| 91 | REINFORCED TAPE FOR A DATA STORAGE DEVICE | US11615423 | 2006-12-22 | US20080151425A1 | 2008-06-26 | William J. Vanderheyden |
| A data storage device is disclosed with a housing sized for a tape drive. A tape reel is mounted for rotation within the housing and a guide is mounted in the housing spaced apart from the tape reel. A first end of a data tape segment is mounted to the tape reel and a second end is not mounted to the tape reel. A structural tape segment has a pair of ends mounted between the first and second ends of the data tape segment for structurally enhancing an intermediate region of the data tape segment. In another embodiment, a structurally enhanced intermediate region is advanced to a read/write region of the data storage device during storage of the device for preventing inadvertent damage to the data tape. | ||||||
| 92 | Method of and apparatus for sticking tape on reel hub and method of and apparatus for winding tape onto tape reel | US11797706 | 2007-05-07 | US20070262190A1 | 2007-11-15 | Kazuo Kubota |
| An apparatus for sticking a tape end on a reel hub of a tape reel in a tape cartridge which is set in a chamber so as to permit the tape reel to rotate comprises a tape carrier movable into and out from the tape cartridge through an egress/ingress opening of the tape cartridge for grasping a tape end of a tape strip and bringing the tape end into a position where the tape end portion is placed adjacently to the reel hub, a liquid applicator for applying a sticking liquid to the reel hub, a side edge detector for detecting a side edge position in a tape width direction of the tape strip, and a position adjuster for adjusting the tape carrier in the tape width direction relative to the reel hub according to a detected side edge position of the tape strip before the tape carrier reaches the reel hub. | ||||||
| 93 | Method of manufacturing magnetic tape | US10406239 | 2003-04-04 | US07225527B2 | 2007-06-05 | Nobuyuki Kobayashi; Masanori Yamamoto |
| When a magnetic tape material is slit into a plurality of magnetic tapes, projections are formed in edge portions of side surfaces of the magnetic tapes. The projections are removed by pressing cutting tools against the edge portions of the side surfaces of the magnetic tape while transporting the magnetic tape. Thus, product quality of the magnetic tape is improved. | ||||||
| 94 | Tape cutting-out equipment and tape production supporting apparatus | US11395323 | 2006-04-03 | US20060175455A1 | 2006-08-10 | Hirokazu Komai |
| Tape cutting-out equipment to wind and cut out tape supplied from a pancake in plural kinds of winding lengths on a reel, the equipment is equipped with a tape supplying device supplying tape from the pancake P, a tape winding device winding the supplied tape from the tape supplying device, a memory unit memorizing position data of defect portions of the tape in the pancake, a winding length deciding unit deciding a winding length of the tape based on the position data read out from the memory unit, a cutting device cutting the tape, and a cutting control unit controlling making the cutting device cut the tape at a timing when the tape winding device winds tape of the winding length decided by the winding length deciding unit. | ||||||
| 95 | Tape cutting-out equipment and tape production supporting apparatus | US10687609 | 2003-10-20 | US07086626B2 | 2006-08-08 | Hirokazu Komai |
| Tape cutting-out equipment to wind and cut out tape supplied from a pancake in plural kinds of winding lengths on a reel, the equipment is equipped with a tape supplying device supplying tape from the pancake P, a tape winding device winding the supplied tape from the tape supplying device, a memory unit memorizing position data of defect portions of the tape in the pancake, a winding length deciding unit deciding a winding length of the tape based on the position data read out from the memory unit, a cutting device cutting the tape, and a cutting control unit controlling making the cutting device cut the tape at a timing when the tape winding device winds tape of the winding length decided by the winding length deciding unit. | ||||||
| 96 | Tape cutting-out equipment and tape production supporting apparatus | US10687609 | 2003-10-20 | US20040079832A1 | 2004-04-29 | Hirokazu Komai |
| Tape cutting-out equipment to wind and cut out tape supplied from a pancake in plural kinds of winding lengths on a reel, the equipment is equipped with a tape supplying device supplying tape from the pancake P, a tape winding device winding the supplied tape from the tape supplying device, a memory unit memorizing position data of defect portions of the tape in the pancake, a winding length deciding unit deciding a winding length of the tape based on the position data read out from the memory unit, a cutting device cutting the tape, and a cutting control unit controlling making the cutting device cut the tape at a timing when the tape winding device winds tape of the winding length decided by the winding length deciding unit. | ||||||
| 97 | Magnetic tape cutout apparatus and method | US10109726 | 2002-04-01 | US06634591B2 | 2003-10-21 | Hirokazu Komai |
| A magnetic tape cutout apparatus 10 having storing member for storing a position of a defect portion of an original roll of a magnetic tape, a winding apparatus 14 for reeling off the magnetic tape from the original roll and winding the magnetic tape as a product and discharging member 17 for removing the product including the defect portion based on information of a position of a defect of the storing member. | ||||||
| 98 | Magnetic tape cutout apparatus and method | US10109726 | 2002-04-01 | US20020139892A1 | 2002-10-03 | Hirokazu Komai |
| A magnetic tape cutout apparatus 10 having storing memeber for storing a position of a defect portion of an original roll of a magnetic tape, a winding apparatus 14 for reeling off the magnetic tape from the original roll and winding the magnetic tape as a product and discharging member 17 for removing the product including the defect portion based on information of a position of a defect of the storing member. | ||||||
| 99 | Magnetic tape splicing for reducing tape pack distortion | US09617000 | 2000-07-14 | US06338448B1 | 2002-01-15 | Steven L. Magnusson |
| A pack of magnetic recording tape (100) comprises a splicing tape (120) which adheres a web of a magnetic tape (122) to a leader (124). The leader (124) attaches to a reel hub (126) around which the tape is to be wound. The length L of the splicing tape in a direction parallel to an elongate dimension (127) of the magnetic tape is on the order of N&pgr;D, where D is the diameter of reel hub and N is an integer. In one embodiment, the length L of splicing tape is just slightly less than the circumference of the reel hub. The tape assembly comprising the combination of the magnetic tape, the leader, and the splicing tape greatly reduces the amount of permanent tape deformation, and provides a more efficient tape pack with smaller discontinuities. Consequentially, the stress on the magnetic tape is greatly reduced, which reduces the amount of permanent deformation and the number of magnetic tape layers that are affected by the deformations. This minimizes the area of the magnetic tape that may be rendered unusable. The tape pack (100) can be utilized in a magnetic tape cassette or cartridge (140), which can be either a dual reel cartridge or a single reel cartridge. | ||||||
| 100 | Magnetic tape splicing for reducing tape pack distortion | US09617506 | 2000-07-14 | US06332584B1 | 2001-12-25 | Jack S. Bakeman, Jr. |
| A pack of magnetic recording tape (200) comprises a splicing tape (220) which adheres a web of a magnetic tape (222) to a leader (224). The leader (224) attaches to a reel hub (226) around which the tape is to be wound. At least an intermediate portion of the splicing tape (220) has its ends oriented non-othogonally to the elongated dimension (227) of the magnetic recording tape. Preferably, the ends of the splicing tape are oriented to be substantially parallel to a helical scan data track (238) to be transduced (e.g., recorded or reproduced) on magnetic tape. In one embodiment, the ends (220E-8) of the splicing tape (220-8) have essentially the shape of the letter “Z”. By providing splices that replicate a path that a transducing head (e.g., scanner head) will travel over the magnetic tape, very few data tracks are sacrificed due to the deformations or print-through. The tape pack (200) of the present invention can be utilized in a magnetic tape cassette or cartridge (240), which can be either a dual reel cartridge or a single reel cartridge. | ||||||
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