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公开(公告)号:US20060090698A1
公开(公告)日:2006-05-04
申请号:US11301489
申请日:2005-12-13
Applicant: Bruce Nesbitt
Inventor: Bruce Nesbitt
CPC classification number: G01B11/08 , B05B12/12 , B05B13/0228 , B05B13/0278 , B05B14/00 , B05D1/002 , B05D1/02 , G01B11/0616 , G01B11/2433
Abstract: A method and apparatus for simultaneously coating and measuring a part. The apparatus includes a part support, a sprayer and a part measurer positioned adjacent to the part support and a display device positioned adjacent to the part support. The sprayer applies a coating to a section of the part while the part measurer continuously measures a dimension of the section of the part being coated. In one embodiment, an initial amount of coating and a final amount of coating are applied to the section of the part based on the dimension measurements and desired dimension of the part. In another embodiment, the amount of coating applied to the part is based on the desired coating thickness. As a result, the apparatus and method of the present invention significantly reduces the margin of error related to the application of coatings to parts.
Abstract translation: 一种用于同时涂覆和测量零件的方法和装置。 该装置包括部件支撑件,喷雾器和邻近部件支撑件定位的零件测量器以及邻近零件支撑件定位的显示装置。 喷涂机将涂层施加到零件的一部分,而零件测量器连续地测量被涂部件的尺寸。 在一个实施例中,基于尺寸测量和部件的期望尺寸,将初始涂层量和最终涂层量施加到零件的该部分。 在另一个实施方案中,施加到部件上的涂层量基于所需的涂层厚度。 结果,本发明的装置和方法显着地降低了与涂层对零件的应用相关的误差幅度。
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公开(公告)号:US20060073267A1
公开(公告)日:2006-04-06
申请号:US11288875
申请日:2005-11-28
Applicant: Bruce Nesbitt
Inventor: Bruce Nesbitt
IPC: B05D1/36
CPC classification number: G01B11/2433 , B05B12/12 , B05B13/0228 , B05B13/0278 , B05B14/00 , B05D1/002 , B05D1/02 , G01B11/0683
Abstract: A method and apparatus for simultaneously coating and measuring a part. The apparatus includes a part support, a sprayer and a part measurer positioned adjacent to the part support and a display device positioned adjacent to the part support. The sprayer applies a coating to a section of the part while the part measurer continuously measures a dimension of the section of the part being coated. In one embodiment, an initial amount of coating and a final amount of coating are applied to the section of the part based on the dimension measurements and desired dimension of the part. In another embodiment, the amount of coating applied to the part is based on the desired coating thickness. As a result, the apparatus and method of the present invention significantly reduces the margin of error related to the application of coatings to parts.
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公开(公告)号:US20060057278A1
公开(公告)日:2006-03-16
申请号:US11270205
申请日:2005-11-08
Applicant: Bruce Nesbitt
Inventor: Bruce Nesbitt
IPC: B05D3/02
CPC classification number: G01B11/2433 , B05B12/12 , B05B13/0228 , B05B13/0278 , B05B14/00 , B05D1/002 , B05D1/02 , G01B11/0683
Abstract: A method and apparatus for simultaneously coating and measuring a part. The apparatus includes a part support, a sprayer and a part measurer positioned adjacent to the part support and a display device positioned adjacent to the part support. The sprayer applies a coating to a section of the part while the part measurer continuously measures a dimension of the section of the part being coated. In one embodiment, an initial amount of coating and a final amount of coating are applied to the section of the part based on the dimension measurements and desired dimension of the part. In another embodiment, the amount of coating applied to the part is based on the desired coating thickness. As a result, the apparatus and method of the present invention significantly reduces the margin of error related to the application of coatings to parts.
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公开(公告)号:US06998147B2
公开(公告)日:2006-02-14
申请号:US10190982
申请日:2002-07-08
Applicant: Bruce Nesbitt
Inventor: Bruce Nesbitt
IPC: B05D1/00
CPC classification number: G01B11/2433 , B05B12/12 , B05B13/0228 , B05B13/0278 , B05B14/00 , B05D1/002 , B05D1/02 , G01B11/0683
Abstract: A method and apparatus for simultaneously coating and measuring a part. The apparatus includes a part support, a sprayer and a part measurer positioned adjacent to the part support and a display device positioned adjacent to the part support. The sprayer applies a coating to a section of the part while the part measurer continuously measures a dimension of the section of the part being coated. In one embodiment, an initial amount of coating and a final amount of coating are applied to the section of the part based on the dimension measurements and desired dimension of the part. In another embodiment, the amount of coating applied to the part is based on the desired coating thickness. As a result, the apparatus and method of the present invention significantly reduces the margin of error related to the application of coatings to parts.
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公开(公告)号:US08900652B1
公开(公告)日:2014-12-02
申请号:US13416743
申请日:2012-03-09
Applicant: Adino D. Caballero , Bruce Nesbitt , Charles Berkelhamer , George F. Osterhout
Inventor: Adino D. Caballero , Bruce Nesbitt , Charles Berkelhamer , George F. Osterhout
CPC classification number: A61L31/10 , A61L31/048 , A61L2420/02 , A61M25/0009 , A61M25/0045 , A61M2025/0008 , B05D1/002 , B05D1/32 , B05D3/0254 , B05D3/12 , B05D5/06 , B05D7/02 , Y10T428/1393
Abstract: A method of manufacturing a coated low-friction medical device, such as low-friction medical tubing, including applying a coating to one or more selected portions of a surface of low-friction medical tubing to indicate at least one marking formed along the surface of the low-friction medical tubing, and simultaneously or substantially simultaneously: (a) curing the applied coating to a designated temperature (which is above the temperature at which the low-friction medical tubing begins to decompose and shrink) to adhere the applied coating to the surface of the low-friction medical tubing, (b) utilizing one or more anti-shrinking devices to counteract or otherwise inhibit the shrinking of the low-friction medical tubing, and (c) exhausting any harmful byproducts resulting from curing the low-friction medical tubing to a temperate above the temperature at which the low-friction medical tubing begins to decompose.
Abstract translation: 一种制造涂覆的低摩擦医疗装置的方法,例如低摩擦医疗管道,包括将涂层施加到低摩擦医疗管道的表面的一个或多个选定部分,以指示沿着表面形成的至少一个标记 低摩擦医用管道,同时或基本上同时地:(a)将施加的涂层固化到指定温度(其高于低摩擦医用管道开始分解和收缩的温度),以将涂覆的涂层粘附到 低摩擦医用管的表面,(b)利用一个或多个抗收缩装置来抵消或以其它方式抑制低摩擦医用管的收缩,和(c)排出由低摩擦医用管固化所产生的任何有害的副产物, 将医疗管道摩擦到高于低摩擦医用管道开始分解的温度的温度。
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Patent Agency Ranking
公开(公告)号:US08814863B2
公开(公告)日:2014-08-26
申请号:US11637446
申请日:2006-12-11
Applicant: Bruce Nesbitt
Inventor: Bruce Nesbitt
CPC classification number: A61B18/1402 , A61B2018/0013
Abstract: An electrosurgical device coated with powder coatings including a silicone resin and siloxane additive without fluoropolymers. In the powder coatings, the silicone resin is methyl phenyl silicone or phenyl silicone or methyl polysiloxane or phenyl alkyl polysiloxane resin and the additive is either methyl alkyl polysiloxane or dimethyl polysiloxane. This coating is applied to the surfaces of an electrosurgical device minimize the build-up of charred tissue on the surfaces of the electrosurgical device.
Abstract translation: 涂有粉末涂层的电外科装置,包括硅氧烷树脂和不含氟聚合物的硅氧烷添加剂。 在粉末涂料中,有机硅树脂是甲基苯基硅氧烷或苯基硅氧烷或甲基聚硅氧烷或苯基烷基聚硅氧烷树脂,并且添加剂是甲基烷基聚硅氧烷或二甲基聚硅氧烷。 将这种涂层施加到电外科装置的表面上,使电外科装置表面上的烧焦组织的积聚最小化。
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公开(公告)号:US08814862B2
公开(公告)日:2014-08-26
申请号:US11637445
申请日:2006-12-11
Applicant: Bruce Nesbitt
Inventor: Bruce Nesbitt
CPC classification number: A61B18/1402 , A61B2018/0013
Abstract: An electrosurgical device coated with powder coatings including a silicone resin and siloxane additive without fluoropolymers. In the powder coatings, the silicone resin is methyl phenyl silicone or phenyl silicone or methyl polysiloxane or phenyl alkyl polysiloxane resin and the additive is either methyl alkyl polysiloxane or dimethyl polysiloxane. This coating is applied to the surfaces of an electrosurgical device minimize the build-up of charred tissue on the surfaces of the electrosurgical device.
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公开(公告)号:US08814861B2
公开(公告)日:2014-08-26
申请号:US11330499
申请日:2006-01-11
Applicant: Bruce Nesbitt
Inventor: Bruce Nesbitt
CPC classification number: A61B18/1402 , A61B17/320016 , A61B18/14 , A61B2017/0088 , A61B2017/00889 , A61B2018/0013 , A61B2018/00595 , A61B2018/00607 , A61B2018/1412 , A61B2018/1417 , A61B2018/1425 , A61B2018/144 , B05D1/06 , B05D1/12
Abstract: An electrosurgical device coated an epoxy modified rigid silicone powder coating which includes a solvent-free hydroxyl functional solid phenyl silicone resin in the range of about 40% to about 60% parts per weight of the coating; a calcium metasilicate in the range of about 20% to about 40% parts per weight of the coating; an epoxy cresol novalac resin in the range of about 5% to about 15% parts per weight of the coating; an ultra-fine air micronized muscovite mica in the range of about 0% to about 10% parts per weight of the coating; a 60% active powder version of a methyl alkyl polysiloxane in the range of about 3% to about 7% parts per weight of the coating; a high temperature calcination of coprecipitated compound with manganese-copper-iron in the range of about 0% to about 10% parts per weight of the coating; an o-cresol novolac resin in the range of about 0.5% to about 3% parts per weight of the coating; and an acrylate copolymer in the range of about 0.5% to about 3% parts per weight of the coating. This coating is applied to the surfaces of an electrosurgical device minimize the build-up of charred tissue (i.e., eschar) on the surfaces of the electrosurgical device.
Abstract translation: 涂有环氧改性的刚性硅氧烷粉末涂层的电外科装置,其包含在约40%至约60%重量份涂层范围内的无溶剂羟基官能固体苯基硅氧烷树脂; 约20重量%至约40重量份涂层的偏硅酸钙; 环氧甲酚酚醛树脂的含量在每份涂料重量的约5%至约15%的范围内; 超细微粉化的白云母云母的涂层重量在约0%至约10%的范围内; 甲基烷基聚硅氧烷的60%活性粉末形式,其重量比为约3%至约7%; 共沉淀化合物与锰 - 铜 - 铁的高温煅烧在约0重量%至约10重量份涂层的范围内; 在约0.5重量%至约3重量份涂料范围内的邻甲酚酚醛清漆树脂; 和丙烯酸酯共聚物,其重量比为约0.5%至约3%。 将该涂层施加到电外科装置的表面上,使电外科装置的表面上的烧焦组织(即,焦痂)的积聚最小化。
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公开(公告)号:US08574171B2
公开(公告)日:2013-11-05
申请号:US13541010
申请日:2012-07-03
Applicant: Bruce Nesbitt , Charles Berkelhamer
Inventor: Bruce Nesbitt , Charles Berkelhamer
IPC: A61M25/09
CPC classification number: A61L31/10 , A61L31/16 , A61L31/18 , A61L2300/404 , A61L2420/02 , A61L2420/08 , B05D3/12 , B05D5/06 , B05D5/08 , B05D7/546 , B05D7/586
Abstract: A method of manufacturing a coated medical device, such as a medical guide wire, including at least applying a first colored coating to at least a first portion of an outer surface of a medical guide wire, securing a first end of the medical guide wire, and for each a designated quantity of turns, turn a second end of the medical guide wire upon a longitudinal axis of the medical guide wire. The method of manufacturing also includes securing the second end of the medical guide wire, blocking at least a first portion of the coated surface of the medical guide wire, applying a second contrasting colored coating to at least a second, unblocked portion of the outer surface of the medical guide wire and releasing the first end and the second end of the medical guide wire to display at least one spiral marking formed along a length of the medical guide wire.
Abstract translation: 一种制造医疗用导线等被覆医疗器具的方法,其特征在于,至少在医疗用导线的外表面的至少第一部分上涂敷第一着色层,将医疗用导线的第一端部固定, 并且对于每个指定的匝数,在医疗导丝的纵向轴线上转动医用导丝的第二端。 制造方法还包括固定医用导丝的第二端,阻塞医用导丝的涂覆表面的至少第一部分,将第二对比着色涂层施加到外表面的至少第二未封堵部分 并释放医用导丝的第一端和第二端,以显示沿医疗导丝的长度形成的至少一个螺旋标记。
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公开(公告)号:US20120271248A1
公开(公告)日:2012-10-25
申请号:US13541010
申请日:2012-07-03
Applicant: Bruce Nesbitt , Charles Berkelhamer
Inventor: Bruce Nesbitt , Charles Berkelhamer
IPC: A61M25/09
CPC classification number: A61L31/10 , A61L31/16 , A61L31/18 , A61L2300/404 , A61L2420/02 , A61L2420/08 , B05D3/12 , B05D5/06 , B05D5/08 , B05D7/546 , B05D7/586
Abstract: A method of manufacturing a coated medical device, such as a medical guide wire, including at least applying a first colored coating to at least a first portion of an outer surface of a medical guide wire, securing a first end of the medical guide wire, and for each a designated quantity of turns, turn a second end of the medical guide wire upon a longitudinal axis of the medical guide wire. The method of manufacturing also includes securing the second end of the medical guide wire, blocking at least a first portion of the coated surface of the medical guide wire, applying a second contrasting colored coating to at least a second, unblocked portion of the outer surface of the medical guide wire and releasing the first end and the second end of the medical guide wire to display at least one spiral marking formed along a length of the medical guide wire.
Abstract translation: 一种制造医疗用导线等被覆医疗器具的方法,其特征在于,至少在医疗用导线的外表面的至少第一部分上涂敷第一着色层,将医疗用导线的第一端部固定, 并且对于每个指定的匝数,在医疗导丝的纵向轴线上转动医用导丝的第二端。 制造方法还包括固定医用导丝的第二端,阻塞医用导丝的涂覆表面的至少第一部分,将第二对比着色涂层施加到外表面的至少第二未封堵部分 并释放医用导丝的第一端和第二端,以显示沿医疗导丝的长度形成的至少一个螺旋标记。
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