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 |
|---|---|---|---|---|---|---|
| 1 | 具有延伸功能的对齐压轮式钢筋调直方法及调直机 | CN201110032809.9 | 2011-01-30 | CN102101146A | 2011-06-22 | 张光伟 |
| 具有延伸功能的对齐压轮式钢筋调直机,包括位于调直机前端的牵引机构、位于牵引机构后端的调直延伸机构和位于调直延伸机构后端的送料机构;牵引机构由牵引轮架1、下牵引轮2、上牵引轮3和牵引轮调整组件4组成;调直延伸机构由调直轮架7、两排调直轮8和调直轮调整组件9组成;送料机构由送料轮架12、下排送料轮13、上排送料轮14和送料轮调整组件15组成。运行时,与原动机动力相连的牵引轮夹着不断前进的钢筋被调直延伸机构的调直轮反复压弯而被调直和伸长。本发明具有一机两能、操作简便等优点,大大地简化了设备的机构、节约了设备用钢材、降低了设备制造成本,同时还降低了设备运行能耗。 | ||||||
| 2 | 具有延伸功能的全主动压轮式钢筋调直方法及调直机 | CN201110032793.1 | 2011-01-30 | CN102078906A | 2011-06-01 | 张光伟 |
| 一种具有延伸功能的全主动压轮式钢筋调直机,包括位于调直机前段的牵引机构、位于牵引机构后段的调直延伸机构和位于调直延伸机构后端的送料机构;牵引机构由牵引轮架1、下牵引轮2、上牵引轮3和牵引轮调整组件4组成;调直延伸机构由调直轮架7、两排调直轮8和调直轮调整组件9组成;送料机构由送料轮架12、下排送料轮13、上排送料轮14和送料轮调整组件15组成。运行时,与原动机动力相连的牵引轮夹着不断前进的钢筋被调直延伸机构的调直轮反复压弯而被调直和伸长。本发明具有一机两能、操作简便等优点,大大地简化了设备的机构、节约了设备用钢材、降低了设备制造成本,同时还降低了设备运行能耗。 | ||||||
| 3 | 热电堆线材、绕组支承件以及用于制造热电式发电机的方法和机器 | CN200880006183.0 | 2008-02-20 | CN101622710B | 2012-01-18 | U·黑茨勒 |
| 本发明涉及热电堆线材(1)、用于这种热电堆线材的绕组支承件、以及用于制造包括热电堆线材的热电式发电机的方法和机器(11)。本发明考虑了在热电堆线材(1)被卷绕时,有效的卷绕直径从热电堆线材(1)的一个绕组层改变至另一个。 | ||||||
| 4 | 热电堆线材、绕组支承件以及用于制造热电式发电机的方法和机器 | CN200880006183.0 | 2008-02-20 | CN101622710A | 2010-01-06 | U·黑茨勒 |
| 本发明涉及热电堆线材(1)、用于这种热电堆线材的绕组支承件、以及用于制造包括热电堆线材的热电式发电机的方法和机器(11)。本发明考虑了在热电堆线材(1)被卷绕时,有效的卷绕直径从热电堆线材(1)的一个绕组层改变至另一个。 | ||||||
| 5 | 열처리 이형강선 제조방법 | KR1020027006551 | 2001-08-01 | KR1020030023601A | 2003-03-19 | 사카타,치카하루; 무라야마,유키오; 키누가사,카즈오 |
| 압연가열수단(6)과, 4방향롤러 압연기(7) 및, 소입냉각수단(8)을 접근시켜 나란히 설치되어, 소재강선(W1)을 가열수단(6)으로 압연온도까지 급속히 가열하고서, 4방향롤러 압연기(7)에 의해 소정단면의 이형강선(W2)으로 압연하고, 핀치롤러(9)에 의해 이형강선(W2)에 인장력을 가하면서 압연직후에 소입냉각수단(8)으로 급냉시켜 가공소입을 행한다. 이때, 상기 핀치롤러(9)는 토크콘버터가 부착된 모터(9a)에 의해 구동되기 때문에, 장력의 변동이 적고 이형강선의 치수가 변하지 않게 된다. 또, 소입냉각수단(8)의 뒤쪽에 소려가열코일(10)이 나란히 설치되어 연속적으로 소려하게 되어, 소입되어 열처리된 작은 만곡이 없는 열처리 이형강선을 1공정에서 제조할 수 있게 된다. | ||||||
| 6 | Thermopile line, winding support and the thermoelectric generator of the manufacturing method, as well as manufacturing equipment | JP2009550241 | 2008-02-20 | JP2010519888A | 2010-06-03 | ヘッツラー,ウルリッヒ |
| 【課題】連続した巻線層において熱電堆線の温接点及び冷接点が正確に位置決めできない問題を解決する。
【解決手段】本発明は熱電堆線1及び熱電堆線用巻線支持体と共に、熱電堆線1からなる熱電発電器の製造装置11に関する。 本発明は、熱電堆線1を巻回するとき、熱電堆線1における前の巻線層と次の巻線層とで有効巻回直径が変化することを考慮したものである。 【選択図】図4 |
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| 7 | Apparatus for producing stretched wire | JP2002382752 | 2002-11-29 | JP2003236609A | 2003-08-26 | SCHAUHOFF CARSTEN; ASCHWANDEN RENE |
| <P>PROBLEM TO BE SOLVED: To provide an apparatus and a method for discontinuously stretching a wire safely at high speed. <P>SOLUTION: A stretching machine 21 includes a roll-type straightening mill 22, a 1st roll-type advancing unit 23, a 1st clamping device 24 which is movable on a hydraulic linear booster 25, a cutting device 29 and a 2nd clamping device 28. The stretched wire 31 is pre-straightened by the roll-type straightening mill 22 and is advanced to the 2nd clamping device 28 by the 1st roll-type advancing unit 23. Subsequently, the wire 31 is held by the two clamping devices 24, 28 and, at this time, the 1st clamping device 24 is moved by the amount of a degree of stretching oppositely to the push-in direction, then the stretched wire 31 is correspondingly cold-deformed. A favourable yield-point ratio is achieved and strain properties are maintained. The final values of the steel stress are detected with a sensor, stored and utilized for the further production of the stretched wire. <P>COPYRIGHT: (C)2003,JPO | ||||||
| 8 | Device for adjusting hardness of wire rod and method therefor | JP8021093 | 1993-03-15 | JPH06262286A | 1994-09-20 | YASUJIMA KAZUNORI; NAKAJIMA KAZUYUKI; MAZAKI YOSHIHARU |
| PURPOSE: To enable the adjustment of tensile strength and elongation of a wire rod in stepless and to improve the productivity without being affected by the kind of wire, wire diameter and the required hardness of the wire rod. CONSTITUTION: By hanging the wire rod 1 wound on a winding capstan 4 at a prescribed speed over plural rolls 9 fixed to a first roll fixing part 10 and a second roll fixing part 11 in a bending roll part 3 arranged at a prescribed interval, the bending is executed. At the time of bending, the wire speeds per unit time of the wire rod 1 before introduced into the bending roll part 3 and after introduced out from the bending roll part 3 are detected with speed sensors 5a, 5b, respectively. Based on the detected wire speeds, the elongation percentage of the wire rod 1 is calculated with a computing element, and based on this elongation percentage, the interval between the first roll fixing part 10 and the second roll fixing part 11 is adjusted with a driving motor 8 controlled with a motor controller 7 to adjust the bending angle of the wire rod 1. COPYRIGHT: (C)1994,JPO&Japio | ||||||
| 9 | JPS6233014B2 - | JP11058776 | 1976-09-14 | JPS6233014B2 | 1987-07-17 | YAMAGUCHI YASUO |
| 10 | Method and device for continuous hot stretching strand wires | JP11058776 | 1976-09-14 | JPS5335666A | 1978-04-03 | YAMAGUCHI YASUO |
| 11 | JPS5140296Y2 - | JP7083971 | 1971-08-07 | JPS5140296Y2 | 1976-10-01 | |
| 12 | JPS5126188B1 - | JP7622671 | 1971-09-29 | JPS5126188B1 | 1976-08-05 | |
| 13 | JPS4919829B1 - | JP10388669 | 1969-12-25 | JPS4919829B1 | 1974-05-20 | |
| 14 | JPS4826233U - | JP7083971 | 1971-08-07 | JPS4826233U | 1973-03-29 | |
| 15 | Method for transmitting a fatigue strength that is improved wire made of a shape memory alloy, and, medical devices made from such wire | JP2011534836 | 2009-10-31 | JP2012506956A | 2012-03-22 | シャッファー,ジェレミー,イー. |
| 丸いおよび平らなワイヤ、ストランド、ケーブル、コイルおよび管のようなワイヤ製品は、ワイヤ製品が改良された耐疲労性を示すように、材料内の固有の欠損が一以上の安定する材料位相内の材料の集合体位相から分離される形状記憶材料から作成される。 1つの応用対象において、本発明の開示による機械的な調節の方法は、マルテンサイト位相のように亀裂開始および/または伝播に抵抗力のある第2の材料位相の範囲のニッケル−チタンまたはNiTi材料における固有の欠損を分離し、一方で、残りの周囲の欠損のない材料は、オーステナイト位相のような第1または親の材料位相のままであり、それによって材料の全体的な超弾性性質は保存される。
【選択図】図10(c) |
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| 16 | Manufacturing device and manufacturing method | JP2005034149 | 2005-02-10 | JP2006220063A | 2006-08-24 | HAMAGUCHI KOJI; TANII JUNICHI |
| <P>PROBLEM TO BE SOLVED: To provide a manufacturing technique capable of manufacturing, in high quality, a product formed by stretching a shape memory alloy. <P>SOLUTION: An assembling device (manufacturing device) 1 can assemble an actuator (product) formed by stretching the shape memory alloy (SMA) 10. In this assembling, the SMA10 is locked to a first holding part 17, and after a guide part 13 is moved along moving directions K1 to K3 while feeding the SMA10, the SMA10 is locked by a second holding part 18. In this case, a switch 16 is turned on to flow a current from a current source 15 to the SMA10 through an electrode part 14. Then, after the SMA10 is fixed to the electrode part 84 with a caulking material 85, the unnecessary part of the SMA10 is cut off to manufacture the actuator. Since the SMA is energized for stretching, the SMA can be stably stretched while suppressing its elongation. As a result, the product can be manufactured with high quality. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 17 | Hardness adjustment device and a method of adjusting the wire | JP8021093 | 1993-03-15 | JP2979890B2 | 1999-11-15 | YASUJIMA KAZUNORI; NAKAJIMA KAZUYUKI; MAZAKI YOSHIHARU |
| 18 | Fixing of the pull cable - tensioning device | JP21404795 | 1995-07-31 | JP2885667B2 | 1999-04-26 | FURANTSUUYOZEFU PYUTSUTOMAN; ARUFUONSU HETSUSE |
| 19 | Production of pc steel or steel stranded wire | JP8848683 | 1983-05-19 | JPS59215233A | 1984-12-05 | IMAIDE MEIKAI; YAMAGUCHI YASUO; KAWADA TAKASHI |
| PURPOSE:To perform strain tempering at a low cost with a small sized installation by connecting two pairs of capstans having different diameters via hydraulic disc brakes to apply tensile strain on the wire and controlling tension and temp. between a weld zone and a non-weld zone. CONSTITUTION:A PC steel wire or steel stranded wire 1 to be treated is wound around capstans 2-1a, 2-1b from an arrow direction and is then passed through a heating coil 8 and a water cooling nozzle 9 until the wire is wound half around a turn roller 3. The wire is then wound around capstans 2-2a, 2-2b having a larger outside diameter and is coiled on a coiler. A disc brake 14 is actuated to grip disc 13 and to connect the capstans 2-1a, and 2-2a, 2-1b and 2- 2b in the stage of applying tension on the wire 1. Tensile strain (or tension) is generated continuously on the wire 1 between the capstans having different circumferential speeds. The wire is heated by the coil 8 and is cooled by the nozzle 9 under such strain, by which the wire 1 having a low relaxation characteristic is produced. | ||||||
| 20 | Wire tension applying device | JP4362483 | 1983-03-16 | JPS59172362A | 1984-09-29 | TOYOKAWA TETSUO |
| PURPOSE:To apply tension of arbitrary level to a wire by extending a wire between the peripheral surfaces of a pair of rotatable taper drums opposed on the large-diameter side and on small-diameter side mutually in such a manner as to sequentially wind round the drums from the small-diameter side to the large-diameter side to provide tension on the wire. CONSTITUTION:A wire (a) drawn out from a wire draw-out drum 1 is sequentially wound round between the peripheral surfaces of taper tension producing drums 2, 3 from the small-diameter side to the large-diameter side with abberation, and the wire is let out from the drum 3 to be wound round a winding drum 4. When the wire (a) is sequentially taken up on the drum 4, if there is no slippage between the drums 2, 3, tension is produced only with expansion deformation caused by tensile stress. As tension is naturally produced, the performance of the wire (a) is not deteriorated. The leading-out position of the wire (a) may be changed to obtain arbitrary tension. | ||||||
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