| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Shielded electrically powered wire trap tool | EP94308984.7 | 1994-12-02 | EP0658962A3 | 1995-10-25 | Kilmer, Paul Robert |
An improved wire wrap tool having a motor, a power supply and a power circuit, the improvement comprising means for shielding the motor in a manner that prevents the tool from emitting undesired amounts of electromagnetic interference and means for damping transient voltage spikes in the power circuit. |
||||||
| 42 | Shielded electrically powered wire trap tool | EP94308984.7 | 1994-12-02 | EP0658962A2 | 1995-06-21 | Kilmer, Paul Robert |
An improved wire wrap tool having a motor, a power supply and a power circuit, the improvement comprising means for shielding the motor in a manner that prevents the tool from emitting undesired amounts of electromagnetic interference and means for damping transient voltage spikes in the power circuit. |
||||||
| 43 | METHOD AND APPARATUS FOR TWIST CONNECTING WIRES | EP91910136.0 | 1991-05-23 | EP0484498A1 | 1992-05-13 | MACKANESS, James Bellamy; PUCHY, David Peter William |
| Procédé de formage d'une connexion en torsade spiralée entrelacée entre deux câbles ductiles (28, 29), le procédé comprenant les étapes consistant à conférer une rotation relative entre les deux éléments (201, 202) d'un connecteur à deux éléments à prépositionnement des câbles (28, 29) côte à côte dans un moyen de cavité se trouvant dans les deux éléments (201, 202), le moyen de cavité présentant une configuration ne permettant au câble (28, 29) de pénétrer dans le moyen de cavité que côte à côte lorsqu'il se trouve dans une orientation spécifique par rapport audit moyen de cavité, la rotation relative des éléments provoquant le blocage de chaque câble (28, 29) contre les surfaces internes de sa cavité associée et, pendant qu'a lieu ladite rotation relative, maintenant à la fois un effet de freinage sur lesdits câbles (28, 29) afin de réguler le mouvement longitudinal relatif entre ceux-ci, et une force convergente sur lesdits éléments (201, 202). | ||||||
| 44 | Verfahren und Einrichtung zum Herstellen einer Wickelverbindung | EP82107329.3 | 1982-08-12 | EP0072037B1 | 1986-12-03 | Lechner, Ernst-Friedrich; Vache, Peter |
| 45 | Anwickel- und Schneidvorrichtung | EP79105072.7 | 1979-12-10 | EP0012916B1 | 1984-07-11 | Kaiser, Jürgen |
| 46 | Cutting, stripping and wrapping bit for insulated conductor wire | EP81303242.2 | 1981-07-15 | EP0048082B1 | 1984-03-21 | Galloup, Clifford Lavern; Klemm, Robert Wilbur; Bula, Roger Michael; Westerburg, Ralph Edwin, Jr. |
| 47 | Verfahren und Einrichtung zum Herstellen einer Wickelverbindung | EP82107329.3 | 1982-08-12 | EP0072037A1 | 1983-02-16 | Lechner, Ernst-Friedrich; Vache, Peter |
Beim Wickeln eines Drahtes um einen Stift wird die entstehende Windung von einer mit der Wickelbewegung rotierenden Werkzeugfläche (21) gegen den Stift gewalzt, so dass definierte und reproduzierbare Kontaktflächen geschaffen werden. Kontaktieren und Wickeln sind kräftenmässig voneinander entkoppelt; die Zugspannung des Drahtes braucht daher nur noch für den reinen Wickelvorgang bemessen zu werden. |
||||||
| 48 | HIGH RELIABILITY WIRE WELDING FOR IMPLANTABLE DEVICES | EP14733762.0 | 2014-05-05 | EP2991727B1 | 2017-02-01 | SCHMIDT, Siegmar |
| 49 | PROCESS FOR MAKING BIOSENSOR | EP13724740.9 | 2013-04-17 | EP2839285B1 | 2016-12-21 | HANSSEN, Johannes Hendrikus Leonardus; WILSON, Christopher |
| A process for making a biosensor comprising a hollow coil comprising wires coiled in parallel and an electronic circuit component connected to the coil, the process comprising: 1) providing a mandrel on which wires including at least a first wire, a second wire and a third wire are wound in parallel, 2a) immersing the mandrel in a first buffer solution comprising a first bioreceptor, a first monomer and optional additives, 2b) arranging the wires such that the first wire may be used as a working electrode, the second wire may be used as a counter electrode and the third wire may be used as a reference electrode of a three electrode electrochemical cell used in an electropolymerisation process, 3) passing electric current through the first wire to form a first biocompatible coating of a first polymer polymerized from the first monomer comprising the first bioreceptor on the first wire, 4) removing the coil from the mandrel, 5) connecting the wires to their respective points of the electronic circuit component such that the first wire may be used as a working electrode, the second wire may be used as a counter electrode and the third wire may be used as a reference electrode and wherein the electronic circuit component is configured such that it can generate an input signal for a wireless receiver based upon the activity of the bioreceptor and wirelessly send the input signal to the wireless receiver. | ||||||
| 50 | WINDING DEVICE AND METHOD FOR BINDING WIRE MATERIAL TO TERMINAL | EP13827479 | 2013-07-16 | EP2884507A4 | 2016-04-27 | SAITO TATSUYA |
| A winding device includes a wire cutting mechanism for cutting the wire wound around the winding target member in the vicinity of the terminal, and a wire binding mechanism for winding, around the terminal, the end portion of the wire wound around the winding target member and cut by the wire cutting mechanism. The wire binding mechanism includes a cylindrical member through which the terminal is insertable, and a rotating mechanism for rotating the cylindrical member about the terminal. A protrusion is formed at a distal end of the cylindrical member so as to protrude in an axial direction of the cylindrical member. | ||||||
| 51 | Process for making biosensor | EP12164644.2 | 2012-04-18 | EP2653868A1 | 2013-10-23 | Hanssen, Johannes Hendrikus Leonardus; Wilson, Christopher |
A process for making a biosensor comprising a hollow coil comprising wires coiled in parallel and an electronic circuit component connected to the coil, the process comprising: 1) providing a mandrel on which wires including at least a first wire, a second wire and a third wire are wound in parallel, 2a) immersing the mandrel in a first buffer solution comprising a first bioreceptor, a first monomer and optional additives, 2b) arranging the wires such that the first wire may be used as a working electrode, the second wire may be used as a counter electrode and the third wire may be used as a reference electrode of a three electrode electrochemical cell used in an electropolymerisation process, 3) passing electric current through the first wire to form a first biocompatible coating of a first polymer polymerized from the first monomer comprising the first bioreceptor on the first wire, 4) removing the coil from the mandrel, 5) connecting the wires to their respective points of the electronic circuit component such that the first wire may be used as a working electrode, the second wire may be used as a counter electrode and the third wire may be used as a reference electrode and wherein the electronic circuit component is configured such that it can generate an input signal for a wireless receiver based upon the activity of the bioreceptor and wirelessly send the input signal to the wireless receiver.
|
||||||
| 52 | Dispositif pour la réalisation d'une épissure | EP97401664.4 | 1997-07-10 | EP0820117A1 | 1998-01-21 | Guyon, Patrick |
Dispositif pour la réalisation d'une épissure entre deux conducteurs (36, 36a) dont les extrémités sont insérées dans un manchon (30) bon conducteur de l'électricité et réalisé en un matériau malléable, caractérisé en ce qu'il comprend un corps (1) en matière isolante avec une jupe (4) et comportant, à une extrémité, des moyens (6) de réception de l'un des conducteurs (36) et des moyens pour le maintien d'une extrémité du manchon (30) et un élément mâle en matière isolante (20) comportant des moyens (22) de réception de l'autre conducteur (36a) et des moyens de maintien de l'autre extrémité du manchon (30) et le corps (1) de l'élément mâle (20) comportant des pas de vis afin que, par pivotement, le manchon (30) soit déformé et comprimé. |
||||||
| 53 | METHOD AND APPARATUS FOR TWIST CONNECTING WIRES | EP91910136 | 1991-05-23 | EP0484498A4 | 1995-08-30 | MACKANESS JAMES BELLAMY; PUCHY DAVID PETER WILLIAM |
| A method of forming an interlocking spiral twist connection between two ductile wires (28, 29) where the method comprising the steps of providing relative rotation between the two members (201, 202) of a two member connector after positioning the wires (28, 29) in side by side relationship in cavity means in both of the members (201, 202), the cavity means having a configuration such that the wires (28, 29) can only be entered into the cavity means in side by side relationship when they are in a specific orientation relative to the cavity means, the relative rotation of the members causing each wire (28, 29) to be jammed against internal surfaces of its associated cavity and during the continuance of said relative rotation maintaining both a braking effect on said wires (28, 29) to control relative longitudinal movement therebetween and a converging force on said members (201, 202). | ||||||
| 54 | Battery operated power wrap tool | EP87101815.6 | 1987-02-10 | EP0234399A3 | 1989-09-20 | Kilmer, Paul Robert |
A portable power tool for forming wire wrap type connections includes an electric motor, a torque transmitter and a casing for enclosing the electric motor and the torque transmitter. Removably mounted to the casing is a battery pack (32). The battery pack mounts both rechargeable and non-rechargeable batteries so that the battery pack may not be recharged when non-rechargeable batteries are contained within the battery pack. |
||||||
| 55 | Wire wrapping tool | EP80300787.1 | 1980-03-14 | EP0018711B1 | 1982-11-17 | Hines, Howard Edward; Hardy, Rex Francis George; Butler, David Sydney |
| 56 | Anwickel- und Schneidvorrichtung | EP79105072.7 | 1979-12-10 | EP0012916A1 | 1980-07-09 | Kaiser, Jürgen |
Anwickel- und Schneidvorrichtung zum Anwickeln eines Drahtes an einen Anschlußstift für elektrische Spulen und zum Abtrennen des überstehenden Drahtrestes in einem Arbeitsgang, wobei eine stationäre Külse (2) mit einem drehbaren Dorn (1) vorgesehen ist, der einer mindestens zu seiner einen Stirnseite hin offene zentrische Bohrung (3) aufweist, in die der Stift beim Anwickeln eintaucht und die mindestens im Wickelbereich einen wenigstens dem Wickeldurchmesser entsprechenden Durchmesser hat und wobei die Hülse und der Dorn einen mindestens nach der einen Stirnsoite hin offenen und zur Bohrung gerichteten Schrägschlitz (5b.2w.6) besitzen. |
||||||
| 57 | APPARATUS FOR SELECTIVELY OPENING UP A PORTION OF A CABLE | EP13899100 | 2013-12-12 | EP3079843A4 | 2017-08-16 | HANNA RAFIK BOSHRA |
| An apparatus (10) for selectively opening up a portion of a cable (12) is provided. The apparatus (10) includes a first guide (14) arranged to receive a core (16) of the cable (12). A second guide (18, 20) is spaced laterally apart from the first guide (14) and is arranged to receive one or more outer wires (22, 24) of the cable (12). The second guide (18, 20) is also arranged to draw a portion of the one or more outer wires (22, 24) of the cable (12) away from the core (16) of the cable (12) as the cable (12) is passed through the apparatus (10) when in use. | ||||||
| 58 | APPARATUS FOR SELECTIVELY OPENING UP A PORTION OF A CABLE | EP13899100.5 | 2013-12-12 | EP3079843A1 | 2016-10-19 | HANNA, Rafik Boshra |
| An apparatus (10) for selectively opening up a portion of a cable (12) is provided. The apparatus (10) includes a first guide (14) arranged to receive a core (16) of the cable (12). A second guide (18, 20) is spaced laterally apart from the first guide (14) and is arranged to receive one or more outer wires (22, 24) of the cable (12). The second guide (18, 20) is also arranged to draw a portion of the one or more outer wires (22, 24) of the cable (12) away from the core (16) of the cable (12) as the cable (12) is passed through the apparatus (10) when in use. | ||||||
| 59 | WINDING DEVICE AND METHOD FOR BINDING WIRE MATERIAL TO TERMINAL | EP13827479.0 | 2013-07-16 | EP2884507A1 | 2015-06-17 | SAITO, Tatsuya |
A winding device includes a wire cutting mechanism for cutting the wire wound around the winding target member in the vicinity of the terminal, and a wire binding mechanism for winding, around the terminal, the end portion of the wire wound around the winding target member and cut by the wire cutting mechanism. The wire binding mechanism includes a cylindrical member through which the terminal is insertable, and a rotating mechanism for rotating the cylindrical member about the terminal. A protrusion is formed at a distal end of the cylindrical member so as to protrude in an axial direction of the cylindrical member. |
||||||
| 60 | PROCESS FOR MAKING BIOSENSOR | EP13724740.9 | 2013-04-17 | EP2839285A1 | 2015-02-25 | HANSSEN, Johannes Hendrikus Leonardus; WILSON, Christopher |
| A process for making a biosensor comprising a hollow coil comprising wires coiled in parallel and an electronic circuit component connected to the coil, the process comprising: 1) providing a mandrel on which wires including at least a first wire, a second wire and a third wire are wound in parallel, 2a) immersing the mandrel in a first buffer solution comprising a first bioreceptor, a first monomer and optional additives, 2b) arranging the wires such that the first wire may be used as a working electrode, the second wire may be used as a counter electrode and the third wire may be used as a reference electrode of a three electrode electrochemical cell used in an electropolymerisation process, 3) passing electric current through the first wire to form a first biocompatible coating of a first polymer polymerized from the first monomer comprising the first bioreceptor on the first wire, 4) removing the coil from the mandrel, 5) connecting the wires to their respective points of the electronic circuit component such that the first wire may be used as a working electrode, the second wire may be used as a counter electrode and the third wire may be used as a reference electrode and wherein the electronic circuit component is configured such that it can generate an input signal for a wireless receiver based upon the activity of the bioreceptor and wirelessly send the input signal to the wireless receiver. | ||||||
