| 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 | ORTHODONTIC GRIPPING DEVICE | EP11846451 | 2011-12-07 | EP2648644A4 | 2016-05-18 | CHESTER NEIL |
| 82 | Verfahren zum Ablösen eines orthodontischen Brackets von der Oberfläche eines Zahns | EP10193947.8 | 2010-12-07 | EP2332488B1 | 2014-08-06 | Förster, Rolf |
| 83 | CLEAR ALIGNER AND MANUFACTURING METHOD THEREOF, TRACTION DEVICE FOR CLEAR ALIGNER, AND AID FOR TRACTION DEVICE FOR CLEAR ALIGNER | EP12823720.3 | 2012-08-14 | EP2745799A2 | 2014-06-25 | Kim, Tae-Weon |
The present invention relates to a clear aligner, a manufacturing method thereof, a traction device for a clear aligner, and an auxiliary tool for a traction device for a clear aligner. More particularly, the present invention relates to a clear aligner (10), a manufacturing method thereof, a traction device for a clear aligner, and an auxiliary tool (40) for a traction device for a clear aligner, wherein the clear aligner can improve orthodontic effects by increasing a correction force by traction of a clear aligner using an elastic band when it is impossible to correct teeth only with the clear aligner due to uneven teeth. |
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| 84 | Metallic glass orthodontic appliances and methods for their manufacture | EP13156765.3 | 2013-02-26 | EP2630932A1 | 2013-08-28 | Sirney, Ronald James; Curley, Brandon; Alauddin, Sammel Shahrier |
An orthodontic appliance for use in orthodontic treatment. The orthodontic appliance is selected from the group consisting of an orthodontic bracket (110, 200, 300), an orthodontic archwire (10), an orthodontic tool (20), and a discrete component (22, 24, 36, 112, 114, 116, 302, 306, 308) thereof. The orthodontic appliance is made of a metallic glass. The orthodontic appliance may be an orthodontic bracket (110, 200, 300) for coupling an archwire (10) with a tooth. The orthodontic bracket (110, 200, 300) comprises a bracket body (112, 202, 302) including an archwire slot (118, 204, 304), the bracket body (112, 202, 302) being made of a metallic glass. The orthodontic bracket (110, 300) further comprises a movable member (114, 306) made of a metallic glass and operatively coupled to the bracket body (112, 302) and movable between an opened position in which the archwire (10) is insertable into the archwire slot (118, 304) and a closed position in which the movable member (114, 306) retains the archwire (10) in the archwire slot (118, 304). The orthodontic bracket (110, 300) further comprises a pin (116, 308) coupling the movable member (114, 306) to the bracket body (112, 302).
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| 85 | RETOOLING DEVICE AND TOOL | EP10771912.2 | 2010-05-07 | EP2427302A1 | 2012-03-14 | CULLEN, Kevin |
| A tool with replaceable parts is provided. In a preferred embodiment the hand tool comprises a set of hand operated pliers (10) that are adapted to have, removably attached to them, replaceable jaws (14 and 16) which are connected to handles (44 and 46) by means of connectors (18 and 16) which are in turn, adapted to be actuated by an actuating member of a retooling device (12). The retooling device (12) comes pre-loaded with the replacement jaws and connectors in one end of the retooling device. The retooling device first disengages the existing jaws (16 and 14) and connectors (18 and 16) whereupon they are securely stored one end of the retooling device (12), and whereafter, the remaining portions of the pliers (10) are inserted into another end of the retooling device (12) where the preloaded jaws and connectors are attached. | ||||||
| 86 | ARBEITSZANGE FÜR DIE KIEFERORTHOPÄDIE UND DENTALTECHNIK | EP07818050.2 | 2007-09-05 | EP2079390B1 | 2009-11-25 | FISCHER-LOKOWANDT, Cornelia |
| 87 | DISTAL END CUTTER | EP03700210.2 | 2003-01-03 | EP1465542A2 | 2004-10-13 | SMITH, Larry, E.; GURCZAK, Andy; SEERALAN, Ravi, P.; SCHINDLER, Ronald, J. |
| A flush cutter (30) of wires (WB) located on a patient's teeth has at least one pivotably carried cutting edge (44). An outer surface of the edge (44) can be positioned adjacent to a surface from which the wire protrudes. An elastic insert or clamp (48), for griping cut wire ends (WC), is carried adjacent to the edge. The insert (48) has first and second spaced apart ends. A rigid surface (50) is located to pivot toward the edge (44). The elastic clamp (48) extends, in part, to the inner surface of the edge (44). As the cutting edge (44) moves toward the rigid surface (50) to cut the wire (WB), the elastic clamp (48) grips the cutoff wire end (WC) for removal. The rigid surface (50) can be formed as a second cutting edge that moves toward the one cutting edge (44). | ||||||
| 88 | Kombinationswerkzeug | EP94117058.1 | 1994-10-28 | EP0657254B1 | 1997-12-03 | Kalthoff, Ferdinand |
| 89 | Kombinationswerkzeug | EP94117058.1 | 1994-10-28 | EP0657254A1 | 1995-06-14 | Kalthoff, Ferdinand |
Bei einem zangenartigen Kombinationswerkzeug (1) mit zwei Griffteilen (2), einem Gelenk (3) sowie zwei als Backen (11,21) einer Zange ausgebildeten Wirkteilen (10,20), wobei an einer ersten Backe (11) ein Hammerkopf (25) und an der zweiten Backe (21) eine Hammerspitze (15) angeformt ist, wobei der Hammerkopf (25) und die Hammerspitze (15) achsgleich ausgerichtet sind und im wesentlichen senkrecht zur Längsachse des Werkzeuges verlaufen, schlägt die Erfindung vor, daß die beiden Wirkteile (10,20) als Backen (11,21) einer Gipsschere sichelförmig gebogen ausgebildet sind. |
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| 90 | Arbeitszange | EP90125055.5 | 1990-12-20 | EP0444298B1 | 1993-12-15 | Kalthoff, Ferdinand |
| 91 | Corrosion resistant cutting tool and method of manufacture | EP92300598.7 | 1992-01-23 | EP0497508A2 | 1992-08-05 | Cera, Jonel c/o E.T.M. Corporation; Kelly, John S. c/o Minnesota Mining and Manu.Comp. |
A completely corrosion resistant, high strength cutting tool such as an orthodontic wire cutter (10) includes a stainless steel body having a pair of corrosion resistant alloy steel bonding tips (24,26) brazed thereto. The tips are brazed to the body using a nickel alloy brazing foil at a brazing temperature of approximately 1038 degrees C. After a rough grinding to appropriate shape, the entire tool is heat treated in a process that heats the tool to an austenitizing temperature for the cutting tips that is about 1121 degrees C. and substantially above the brazing temperature to achieve a tip hardness of 62-67 Rc. Thereafter finish grinding, buffing, polishing and honing of the cutting edges completes the manufacture of the cutting tool. |
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| 92 | Arbeitszange | EP90125055.5 | 1990-12-20 | EP0444298A1 | 1991-09-04 | Kalthoff, Ferdinand |
Die Erfindung bezieht sich auf eine Arbeitszange, die in ihrem Griff- und Wirkteilbereich so gestaltet ist, daß mit einer einzigen Zange alle in der Kieferorthopädie erforderlichen Produkte erstellt werden können, nämlich Zahnspangen mit Labialbogen und Frontalfedern, Adamsklammern, U-Bügel und Fingerfederchen, Jäkelspreizen sowie das Aktivieren von O-Bügeln. |
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| 93 | Orthodontic apparatus | EP86309494.2 | 1986-12-05 | EP0225794B1 | 1991-02-13 | Snead, Wilford A. |
| 94 | Orthodontic apparatus | EP86309494.2 | 1986-12-05 | EP0225794A1 | 1987-06-16 | Snead, Wilford A. |
An orthodontic plier with opposed jaw portions (56,66) that can be moved toward one another in a substantially straight-line motion to pry a removable cap (24) off a convertible buccal tube (10), without exerting a twisting force on the tooth and without an exposed tip that can slip and damage soft mouth tissue is disclosed. One jaw portion (56) has a pointed tip (60) that can be inserted into one end of the buccal tube and the other jaw portion (66) has a flat surface for bracing the other end of the buccal tube and a notch (68) therein for receiving the pointed tip (60) of the other jaw portion (56). The prying jaw portion (56) is connected to one arm (34) of the plier through a sliding bar (44) pivoted to the end of the arm (34) and sliding along a support bar (50) fixed to the other arm (36) of the plier. The other jaw portion (66) is fixed to the end of the support bar (50) so that the jaws (56,66) move towards one another in a straight-line fashion. This permits removal of the convertible buccal tube cap (24) without imposing damaging forces on the tooth to which the buccal tube is attached. |
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| 95 | Systems and methods to axially align dies | US15865753 | 2018-01-09 | US10150153B1 | 2018-12-11 | Brendon Goede |
| Die sets and tools using such die sets, are described which promote axial alignment of the dies during die closure. In addition, jaw sets for tools are described that promote axial alignment of the jaws during die closure. Also described are related methods using the die sets and/or tools with such die sets. | ||||||
| 96 | Orthodontic cinch back instrument | US15811320 | 2017-11-13 | US10070942B1 | 2018-09-11 | Sahar Faisal Al Barakati; Bader Khalid Al Balkhi |
| The orthodontic cinch back instrument is an orthodontic tool used for cinching back an end of an orthodontic wire. The orthodontic cinch back instrument includes an elongated handle portion which extends along a longitudinal axis and has opposed first and second ends. First and second shank portions are respectively secured to, and extend longitudinally from, the first and second ends of the elongated handle portion. First and second arcuate head supports are respectively secured to, and extend from, the first and second shank portions. The first and second arcuate head supports are positioned and contoured antisymmetrically with respect to one another about a lateral axis. First and second heads are respectively secured to the first and second arcuate head supports and are positioned and angled antisymmetrically with respect to one another about the lateral axis. Each of the first and second heads has a slot formed therein. | ||||||
| 97 | TOOL FOR HANDLING PALATAL EXPANDERS | US15750266 | 2016-10-24 | US20180228575A1 | 2018-08-16 | Gabriele SCOMMEGNA; Maurizio DOLFI |
| Tool for handling palatal expanders, including two opposed jaws adapted to clamp at least one body of a palatal expander, a handle, and actuation means adapted to move said jaws between a clamping position on said at least one body and respectively a release position, said jaws being bound elastically to one another and are normally spaced from each other, and said actuation means comprising a slider slidably mounted on the outer surfaces of the jaws, the slider being provided with a part adapted to interact with said outer surfaces so as to compress the jaws by pushing them toward each other when it is made to slide along a first direction and free them when it is made to slide along a second direction, said actuation means being adapted to firmly but reversibly lock the jaws in said clamping position. | ||||||
| 98 | Orthodontic gripping device | US13373968 | 2011-12-07 | US09877804B2 | 2018-01-30 | Neil Chester |
| The present invention relates to an orthodontic gripping device having a body made of a superelastic metal alloy, cold worked titanium beta III, or solution heat treated and aged titanium beta III. The body has first and second, spaced apart arm portions connected to each other. Each arm portion includes a jaw portion having an inner, arch wire-gripping, surface. The inner gripping surfaces are disposed opposite one another in spaced relation with a station defined therebetween for receiving the arch wire. At least a portion of the station is sized smaller than the arch wire. The arm portions are resiliently deflectable outwardly away from each other to admit the arch wire into the station. Once seated in the station, the arch wire is tightly held by inner gripping surfaces so as to resist displacement of the gripping device relative to the arch wire. | ||||||
| 99 | Orthodontic torquing | US13638242 | 2011-03-31 | US09744003B2 | 2017-08-29 | Phillip M. Goodman |
| Embodiments of the present disclosure are directed to devices and a method for orthodontic torquing. For the various embodiments, a pliers for crimping coils of an orthodontic torquing spring to an arch wire includes: a pair of plier halves, each of the plier halves including a handle, a jaw, and a pivot section, each of the jaws including a crimping face defined by a distal edge having a length in a range of 200 percent to 400 percent of a diameter of the orthodontic spring, a first lateral edge, and a second lateral edge, the edges defined by a radius of curvature in a range of 0.1 millimeters to 0.5 millimeters, a textured surface on at least one of the crimping faces to frictionally engage the coil of the orthodontic spring, and a pivot joint connecting the pivot sections of the pair of plier halves such that the handles can be manipulated to cause the crimping faces of the jaws to move together to crimp a coil of the orthodontic torquing spring to the arch wire. | ||||||
| 100 | Precision configuration of a component | US14298961 | 2014-06-08 | US09629694B2 | 2017-04-25 | James Jiwen Chun; Andrew Youngho Chun; Angela Soyoung Chun; Jennifer Miseong Chun |
| A precision configuration system includes a plier device having clasp members, a heat transfer clamp member, a bending force transducer, and a temperature controller. One clasp member has a single jaw tooth that contacts and heats a component, for example, a wire positioned by a component holder and accommodated within a receptacle defined between double jaw teeth of the other clasp member. The heat transfer clamp member includes a heating coil that generates and transfers heat to the single jaw tooth. The bending force transducer controls magnitude and direction of bending forces applied by the plier device to precision bend and reshape the component at one or more bending points on the component based on force commands received from a component configuration computer system. The temperature controller controls the generation and transfer of heat to the single jaw tooth to facilitate temperature controlled, precision bending and reshaping of the component. | ||||||
