| 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 | 钢筋第一次冷拉长度光电控制机构 | CN201610017197.9 | 2016-01-12 | CN105458021A | 2016-04-06 | 刘佐志 |
| 一种钢筋第一次冷拉长度光电控制机构,包括卷扬机和控制结构,卷扬机通过滑轮组驱动冷拉杆,其特征在于:所述的控制结构包括光电控制器、顺启接触器、逆启接触器和反光贴纸,所述的卷扬机分别通过顺启接触器和逆启接触器和光电控制器相连接,所述的反光贴纸设置在冷拉杆上;本发明具有的优点和积极效果包括无需人工观察及安全监护,节省人工成本;冷拉长度统一,误差控制在mm级别;节省时间,提高工效;采用安全电压,触电风险低;在一定程度上降低了冷拉钢筋断裂的几率,对安全风险和原材节约有一定帮助;结构简单,系统成本低。 | ||||||
| 2 | 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。 | ||||||
| 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 | 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。 | ||||||
| 4 | 用于线材的连续轧制设备 | CN02805310.9 | 2002-12-20 | CN1492786A | 2004-04-28 | 柳炳燮 |
| 本发明揭示了一种线材轧制机。该轧制机包括:一第一绕线筒,用于放出卷绕于其上的线材;一矫平单元,用于调整从第一绕线筒上放出来的线材的高度,以保证线材可正确地被引导至下一位置;一轧辊架单元,它设有用于连续轧制已被引导穿过矫平单元的线材的诸轧辊;一输送单元,它包括一传动轮和一空转轮,轧辊架单元轧制过的线材卷绕在所述传动轮和空转轮上并被牵引,以在线材上施加张紧的输送力;以及一卷绕单元,用于将输送单元所输送的线材均匀地再卷绕在一第二绕线筒上。 | ||||||
| 5 | 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. | ||||||
| 6 | Thermopile line, winding support and the thermoelectric generator of the manufacturing method, as well as manufacturing equipment | JP2009550241 | 2008-02-20 | JP5296713B2 | 2013-09-25 | ヘッツラー,ウルリッヒ |
| The invention relates to a thermopile wire (1), a winding support for such a thermopile wire, as well as a method and a machine (11) for producing a thermoelectric generator including a thermopile wire (1). The invention takes into account that the effective winding diameter changes from one winding layer of the thermopile wire (1) to the next when the thermopile wire (1) is wound. | ||||||
| 7 | Manufacture of vibrator | JP2200394 | 1994-01-20 | JPH07208999A | 1995-08-11 | TOKUNAGA YUICHIRO; INAO TAKESHI |
| PURPOSE:To provide a manufacturing method for a vibrator having a high manufacturing yield. CONSTITUTION:A wire rod 10 comprising metal material is formed so as to have the diameter of 5mm with a cylindrical die 12 and further cut into the pieces having the length of 500mm. The cut wire rod 10 undergoes heat treatment in hydrogen atmosphere at 800 deg.C for two hours. The wire rod 10 is sequentially pulled out with triangle dies 14, 16, 18 and 20 in the straight-line shape without through a winding step furthermore. The wire rod is formed so as to have the triangular cross section. The wire rod 10, which is shaped to have the triangular cross section, is cut into pieces of, e.g. the length of 400mm. The wire rod is sent to the following step keeping the straight line shape. | ||||||
| 8 | THERMOPILE WIRE, WINDING SUPPORT, AND METHOD AND MACHINE FOR THE PRODUCTION OF A THERMOELECTRIC GENERATOR | US12528387 | 2008-02-20 | US20100319748A1 | 2010-12-23 | Ullrich Hetzler |
| The invention relates to a thermopile wire (1), a winding support for such a thermopile wire, as well as a method and a machine (11) for producing a thermoelectric generator including a thermopile wire (1). The invention takes into account that the effective winding diameter changes from one winding layer of the thermopile wire (1) to the next when the thermopile wire (1) is wound. | ||||||
| 9 | Method for manufacturing a vibrator | US643533 | 1996-05-06 | US5671632A | 1997-09-30 | Yuichiro Tokunaga; Takeshi Inao |
| A wire 10 made of metal is shaped into a wire having a diameter of 5 mm by a circular die 12 and then, cut to a plurality of lengths of 500 mm. The wire 10 is heated in hydrogen atmosphere at 800.degree. C. for two hours. Then, the wire 10 is drawn by a plurality of triangular dies 14, 16, 18, and 20 sequentially without winding the wire 10 around a reel. As a result, the wire 10 is shaped into an approximately regular triangular configuration in section. The wire 10 shaped into the approximately regular triangular configuration is cut to a plurality of lengths of 40 mm and then supplied to a predetermined place for a subsequent processing. | ||||||
| 10 | Method and apparatus for continuously hot-stretching a steel cable | US832863 | 1977-09-13 | US4112725A | 1978-09-12 | Yasuo Yamaguchi |
| A method of hot-stretching a cable and an apparatus for practicing the same in which first, second and third capstans of different diameters, having a common rotating shaft, and having grooves on the circumferential surfaces thereof for winding the cable a plurality of turns are provided in parallel between a stranding machine and a winding machine but on the side of the stranding machine. First and second guide pulleys are provided in parallel on the side of the winding machine, and the cable is wound around said winding machine through the first capstan, the first guide pulley, the second capstan, the second guide pulley and the third capstan. A front heat treatment equipment for heating the cable is provided between the first and second capstans, and a rear heat treatment equipment for heating the cable is provided between the second and third capstans. The stranding machine is operated in such a manner that the operating speed of the stranding machine is increased to a predetermined low speed after start, and after the predetermined low speed is maintained for a predetermined period of time, the operating speed is gradually increased to the rated operating speed. The front heat treatment equipment and the rear heat treatment equipment is selectively operated as required, while a part of the cable lying between the first and second capstans and a part of the cable lying between the second and third capstans is selectively subjected to a predetermined tension, so that the whole length of the cable stranded until the operating speed of the stranding machine reaches the rated operating speed after starting is continuously and effectively subjected to a hot-stretching treatment. | ||||||
| 11 | Bridles | US3626737D | 1969-10-29 | US3626737A | 1971-12-14 | DEFONTENAY PAUL A |
| THE INVENTION CONCERNS A DEVICE WHICH PLACES TENSION ON A METAL STRIP BY PULLING THE LATTER BY MEANS OF PULLING ROLLS OF A PULLING BRIDLE THROUGH DRAG ROLLS OF A DRAG BRIDLE, EACH OF THE PULLING AND DRAG ROLLS BEING COUPLED TO A FOLLOWING ROLL BY MEANS OF A DIFFERENTIAL, AND ALL ROLLS BEING DRIVEN BY A COMMON MOTOR.
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| 12 | Tensioning device | US44854265 | 1965-04-15 | US3323754A | 1967-06-06 | JOACHIM NIXDORF; ALFRED BURGEL |
| 13 | Pulling-machine | US30060219 | 1919-05-29 | US1327492A | 1920-01-06 | SCHOTT JOHN H |
| 14 | Gripping tool with orthogonal handles | US11299530 | 2005-12-12 | US07152846B1 | 2006-12-26 | Jeffrey Matthew Jue |
| A gripping tool having a handle oriented orthogonally to the plier jaws to facilitate various operations, such as pulling a wire through a drawplate. | ||||||
| 15 | Wheel spoke extrusion stretcher | US864908 | 1997-05-29 | US5740689A | 1998-04-21 | Yen-Shun Chu |
| A wheel spoke extrusion stretcher including a main shaft turned by a motor through a belt transmission mechanism, two driven shafts turned by said main shaft through helical gears, a main sliding block coupled to the driven shafts by a crank and holding an eye block die and a tool block, two transmission shafts coupled to the driven shafts by bevel gears and mounted with cam wheels, two sets of chucks respectively mounted on respective transverse sliding blocks and moved by the cam wheels to seize workpiece, a swing link turned to pick up workpiece from a feed plate by jaw chucks, and a swing arm turned about an axle by one cam wheel and having a hammer bit at one end, wherein when workpiece is picked up and gripped by the chucks, the main sliding block is moved forwards to force the eye block die onto workpiece, and then the chucks are opened in proper order as the eye block die is moved forwards, and then the hammer bit of the swing arm is moved downwards to hit the tool block, causing it to cut off workpiece. | ||||||
| 16 | Apparatus for hot-stretching steel wire and cable | US3788120D | 1972-08-07 | US3788120A | 1974-01-29 | TAKEO K; KATSUMATA T; HIJIKATA A |
| A pair of spaced caterpillars along a moving direction of steel wire or steel cable to be stretched, comprises a pair of chainrollers which compressively contact each other and rotate in opposite directions. A heating apparatus is disposed between the caterpillars and a cooling apparatus is also disposed at another position between the caterpillars. One caterpillar is disposed forwardly of the other caterpillar in the moving direction of the steel wire or cable and driven at a higher velocity than that of the other caterpillar so that a predetermined tension is applied on the moving steel wire or cable between the caterpillars. Each chain-roller of the pair includes holder members which are provided in facing relation to and urged, under liquid pressure, against those of the other chain-roller. Each of the holder members has an upper part holding the steel wire or steel cable and a lower part connected to the chain-roller, the parts being formed of metal, and the upper part is supported by the lower part through a resilient plate.
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| 17 | Strand handling apparatus | US3470723D | 1966-09-28 | US3470723A | 1969-10-07 | REMNER ROBERT A |
| 18 | Strip tensioning apparatus | US46689965 | 1965-06-25 | US3362202A | 1968-01-09 | ANDRE GAY PIERRE |
| 19 | Process and apparatus for straightening metallic rod stock | US46295465 | 1965-06-10 | US3348400A | 1967-10-24 | WILLY KORF |
| 20 | Methods of extrusion and wiredrawing of metallic products and devices for the practical application of said improved methods | US31702163 | 1963-10-17 | US3293899A | 1966-12-27 | YVES TERRAS |
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