序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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121 | Manufacturing device for annular body from long-sized body | JP24923386 | 1986-10-20 | JPS63104727A | 1988-05-10 | YOSHIOKA SHIGEO |
PURPOSE: To stably manufacture an annular body without the shape dispersion in the peripheral direction by working a long-sized steel wire linearly, feeding by a constant length and cutting it after performing a bending by a work roller. CONSTITUTION: The steel wire 1 wound in a coil shape is linearly shaped by a straight lining roller 4 in a straight lining device A, pinched by the claw 10 of the holding means 9 of a feeding device B and advanced by the fixed distance until its colliding with a stopper 19 by an air cylinder 18. It is then subjected to bending by the bending roller 13 consisting of one set in three pieces of a winding device C by a feeding roller 11, what is made in annular shape by guiding with a guide member 16 so that the tip part may be attained to a winding part 15 is cut at the winding part 15 by the cutting blade 20 of a cutting device D and the annular body 2 excellent in the dimensional and shape accuracies without the dispersion in the peripheral direction length is prepd. COPYRIGHT: (C)1988,JPO&Japio | ||||||
122 | Steel wire coiling device | JP30112586 | 1986-12-17 | JPS62168623A | 1987-07-24 | FURANKU SURIIPAA RATSUSERU; ROBAATO JIYOSEFU SHIMONETSURI |
123 | Apparatus for manufacturing torsional spring | JP25993984 | 1984-12-11 | JPS61137636A | 1986-06-25 | ITAYA REIJIRO |
PURPOSE: To match exactly the delivery quantity and winding quantity of a wire and to form a torsion spring having high accuracy by providing a motor for rotating a wire winding tool, a motor for rotating wire delivery rollers and a control part for each motor. CONSTITUTION: The rotating speeds of a delivery motor 5 and a winding shaft motor 13 are controlled in the control part 19 so that the delivery quantity of the wire 1 fed by the delivery rollers 2a, 2b and the winding quantity of the wire 1 wound by the mandrel 10 of the winding tool 9 coincide exactly with each other. The length of the wire 1 between the rollers 2a, 2b and the tool 9 is thus maintained always constant and the tension on the wire 1 by the rollers 2a, 2b is eliminated and therefore the generation of an error in the winding angle according to the hardness, etc. of the wire 1 or the change in the length of the leg by the slip between a projecting part 11 and the wire 1 is obviated. Since the wire 1 is not drawn out by the friction with the projecting part 11, the instability of the torsion spring is obviated. COPYRIGHT: (C)1986,JPO&Japio | ||||||
124 | Manufacture of coil | JP20750481 | 1981-12-22 | JPS58107239A | 1983-06-25 | YAMAZAKI TOSHIYUKI; HAYAMA YOSHIHIRO; OKUMURA TAKASHI |
PURPOSE:To make the length of a coil equal to a set value by operating two servomotors basing on preset data before manufacturing a coil and correcting the preset data when there is an error that exceeds the allowable limit between the number of revolutions of the second motor and preset coil length data. CONSTITUTION:A test operation is performed before manufacturing a coil, and the coil length basing on a data table prepared on the basis of data inputted from outside and the coil length obtained from rotation of the second servomotor are compared. When the difference exceeds the allowable limit, the data table is corrected so that the difference between two coil length becomes within the allowable limit. | ||||||
125 | Manufacture of coil spring | JP17646381 | 1981-11-05 | JPS5877731A | 1983-05-11 | OOMORI TADAO; KUNOU TAKAHIKO; TSUSHIMA KAZUNORI |
PURPOSE:To improve productivity by performing the stage of coiling a blank material synchronously with the stages of cutting and grinding and finishing end surfaces. CONSTITUTION:To coil a blank material into a coil spring of prescribed length size, end surfaces of the material are ground and finished while cut at a high speed by a cutting grindstone which rotates at a high speed synchronously with the stage of coiling. Then, low-temperature annealing is performed upon occasion. Thus, the grinding and finishing of the end surface are performed simultaneously with the cutting, so the end surfaces are excellent and the stage of grinding the end surface after the low-temperature annealing is unnecesary. Further, successive coiling prevents the crushing of the wire to reduce variance, thereby improving productivity. | ||||||
126 | Spring manufacturing machine equipped with two motors | JP13387081 | 1981-08-26 | JPS5835030A | 1983-03-01 | TAKUMI HIROSHI |
PURPOSE:To obtain the titled spring manufacturing machine which operates at the timing of a wire feeding motor upon occasion and improves mass-productivity, by operating a tool through a tool operating motor and also operating a wire feeding roller. CONSTITUTION:In a spring manufacturing machine equipped with a wire feeding motor 1 and a tool operating motor 14 such as pulse motors whose stop position and rotational speeds are controllable, the wire feeding motor 1 drives wire feeding rollers 10 and 11 through a power shaft 2, gears 3, 4, 5, and 6, a one-way clutch 7, a roller shaft 8, gears 12 and 13, a roller shaft 9, etc., to introduce a wire material. The tool operating motor 14 drives a tool operating cam 20 through a power shaft 16, gears 17 and 18, and a cam shaft 19, and also drives a roller shaft 8 through an auxiliary feeding cam 21, an oscillatory lever 22, an oscillatory arm 23, a one-way clutch 24, an auxiliary feeding shaft 25, bevel gears 26 and 27, and a one-way clutch 28. Manufacturing processes are controlled by a controller 15. | ||||||
127 | Coiling device for steel rope | JP13084581 | 1981-08-20 | JPS5775235A | 1982-05-11 | FURANKU SURIIPAA RANESERU; ROBAATO JIYOSEFU SHIMONETSURI |
128 | JPS5339014B2 - | JP8362273 | 1973-07-26 | JPS5339014B2 | 1978-10-19 | |
129 | DRAHTVERARBEITUNGSMASCHINE MIT SCHUTZVORRICHTUNG | EP16721094.7 | 2016-04-19 | EP3291930A1 | 2018-03-14 | SCHUR, Andreas; KUHNERT, Oliver |
A wire processing machine (100) for producing shaped parts, in particular springs, by shaping wire, comprises a machine front wall (120), a shaping unit having at least one shaping tool which is arranged in a working region (150) on a front side of the machine front wall, a feed unit for feeding wire to the shaping unit, a cutting unit for cutting off a completed shaped part from the fed wire after completion of a shaping operation, a control unit (180) for controlling the feed unit, the shaping unit, and the cutting unit according to an NC control program, and a protection device (260) for temporarily covering the working region (150) during operation of the wire processing machine. The protection device (260) comprises a roller blind (250) which can be moved between an open position and a closed position, wherein in the open position it is possible for an operator to access the working region, and in the closed position access is prevented. The roller blind comprises a contact area (270) which is located on the inner side of the roller blind (250) facing the shaping unit at the height of the working region (150) if the roller blind is in the closed position, wherein the contact area is designed such that, on impact of an object, for example the wire (D), on the contact area, a contact signal indicating the contact is generated which can be transmitted to the control unit. | ||||||
130 | CALANDRE ET PROCEDE DE CALANDRAGE DE RESSORT DE BARILLET D'HORLOGERIE | EP16173898.4 | 2016-06-10 | EP3255510A1 | 2017-12-13 | Vannod, Jonas; Charbon, Christian |
Procédé de calandrage d'un ressort de barillet (100), depuis un lacet (1) comportant un coquillon (2) façonné au préalable, utilisant une calandre (20) comportant un premier moyen d'appui (10) exerçant un effort (F) sur ledit lacet (1) en une première zone de contact (A) située entre une deuxième (B) et une troisième (C) zones de contact que comportent un deuxième (12) et un troisième (13) moyens d'appui, pour enrouler, au-delà dudit coquillon (2), une zone d'accumulation (5) avec une courbure opposée à celle dudit coquillon (2), et où, lors de l'avance dudit lacet (1) on modifie progressivement la position de ladite première zone de contact (A) en l'éloignant desdites deuxième (B) et troisième (C) zones de contact, pour faire varier le rayon de calandrage depuis une première valeur minimale (R1) jusqu'à une deuxième valeur (R2) maximale au niveau d'un cou (3) de jonction entre ladite zone d'accumulation (5) et ledit coquillon (2). |
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131 | VORRICHTUNG UND VERFAHREN ZUR HERSTELLUNG VON FEDERN | EP09775082.2 | 2009-11-18 | EP2349605B1 | 2017-11-01 | GRAF, Bernhard; EGLI, Michael |
132 | Machine vision system for apparatus for customized shaping of orthodontic archwires and other medical devices | EP13182838 | 2010-03-26 | EP2732790B1 | 2017-05-03 | RIEMEIER FRIEDRICH; BUTSCHER WERNER; WITTE FRANK; RADINGER CHRISTOPH; CORDELL ANDREW; SACHDEVA ROHIT |
133 | EMBOLIC FRAMING MICROCOILS | EP15710996.8 | 2015-02-27 | EP3110343A1 | 2017-01-04 | LE, Be, Thi; GARZA, Armando; VELASCO, Regina, Coeli; AGUILAR, Amiel, Richard; YEE, Berchell, John; MIRIGIAN, Gregory, Edwin |
An embolic microcoil can be formed into a complex shape for use in treating aneurysms and other vascular disorders. The microcoil features a distal portion including several loops that together comprise a substantially spherical shape, and an elongated proximal portion that is deployable within the distal portion. The distal portion can create a stable frame with adequate loop coverage across a neck of the aneurysm. The proximal portion can include a series of substantially omega-shaped loops, which can apply a force against the interior of the substantially spherical shaped distal portion, expanding it into apposition with additional portions of the aneurysm wall. Methods of treating vascular disorders and methods of manufacturing certain microcoils are also disclosed. | ||||||
134 | Ressort thermocompensé et son procédé de fabrication | EP10165641.1 | 2010-06-11 | EP2264553B1 | 2016-10-26 | Charbon, Christian; Verardo, Marco; Quintina, José |
135 | Machine vision system for apparatus for customized shaping of orthodontic archwires and other medical devices | EP13182838.6 | 2010-03-26 | EP2732790A1 | 2014-05-21 | Riemeier, Friedrich; Butscher, Werner; Witte, Frank; Radinger, Christoph; Cordell, Andrew; Sachdeva, Rohit |
A machine vision system (1102, 1104) for an apparatus (108) for bending or shaping orthodontic archwires (122) or other medical devices into a complex, patient individual shape is described. The apparatus comprises two moveable, compact, manipulators (112,114) with, in total, at least three revolute joints defining three rotation axes and at least three prismatic joints defining at least three translation axes. Gripping tools (116,118) are provided on the manipulators. The two manipulators are arranged to allow a relative movement in six degrees of freedom. The machine vision system is configured to monitor movements of the manipulators and a shape of said archwire before and after bending. |
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136 | APPARATUS AND METHOD FOR CUSTOMIZED SHAPING OF ORTHODONTIC ARCHWIRES AND OTHER MEDICAL DEVICES | EP10772423.9 | 2010-03-26 | EP2427135B1 | 2013-09-04 | RIEMEIER, Friedrich; BUTSCHER, Werner; WITTE, Frank; RADINGER, Christoph; CORDELL, Andrew; SACHDEVA, Rohit |
137 | APPARATUS AND METHOD FOR CUSTOMIZED SHAPING OF ORTHODONTIC ARCHWIRES AND OTHER MEDICAL DEVICES | EP10772423 | 2010-03-26 | EP2427135A4 | 2012-03-14 | RIEMEIER FRIEDRICH; BUTSCHER WERNER; WITTE FRANK; RADINGER CHRISTOPH; CORDELL ANDREW; SACHDEVA ROHIT |
138 | VORRICHTUNG UND VERFAHREN ZUR HERSTELLUNG VON FEDERN | EP09775082.2 | 2009-11-18 | EP2349605A1 | 2011-08-03 | GRAF, Bernhard; EGLI, Michael |
Using a method for producing a spring (1) from a spring wire (6), turns of a first spring part (10) are produced, wherein said produced turns move in a first direction (B). Thereafter, turns of a second spring part (12) are produced, wherein said produced turns move in a second direction (C) which is different from, in particular opposite of, the first direction. Such a method can be used to produce a spring having a plurality of spring parts in a simple manner. | ||||||
139 | Ressort thermocompensé et son procédé de fabrication | EP10165641.1 | 2010-06-11 | EP2264553A3 | 2011-03-23 | Charbon, Christian; Verardo, Marco; Quintina, José |
L'invention se rapporte à un procédé de fabrication (1) d'un ressort pour une pièce d'horlogerie comportant les étapes suivantes : L'invention se rapporte également au ressort obtenu par le procédé. L'invention concerne le domaine des organes régulateurs de pièces d'horlogerie. |
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140 | Ressort thermocompensé et son procédé de fabrication | EP10165641.1 | 2010-06-11 | EP2264553A2 | 2010-12-22 | Charbon, Christian; Verardo, Marco; Quintina, José |
L'invention se rapporte à un procédé de fabrication (1) d'un ressort pour une pièce d'horlogerie comportant les étapes suivantes : L'invention se rapporte également au ressort obtenu par le procédé. L'invention concerne le domaine des organes régulateurs de pièces d'horlogerie. |