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公开(公告)号:EP3297687A2
公开(公告)日:2018-03-28
申请号:EP16742020.7
申请日:2016-05-20
申请人: Nikinc Holding B.V.
发明人: VAN DEN HOUDT, Andreas Adrianus Lambertus , VERHOEVEN, Franciscus Maria , PESSERS, Paul Herman Maria
IPC分类号: A61L2/20
CPC分类号: A61B90/70 , A61B1/123 , A61L2/183 , A61L2/186 , A61L2/202 , A61L2/24 , A61L2202/182 , A61L2202/24
摘要: The invention relates to a decontamination device for medical instruments and a method for decontaminating medical instruments. The device includes a reception unit arranged for receiving a to be treated medical instrument. The device further includes a washing unit arranged for washing and/or drying the instrument. The device includes a disinfection unit arranged for disinfecting the instrument. The device includes a delivery unit arranged for presenting the disinfected instrument to be taken out of the decontamination device.
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公开(公告)号:EP2223642A3
公开(公告)日:2018-01-10
申请号:EP10154772.7
申请日:2010-02-26
申请人: Gotohti.com Inc.
发明人: Ophardt, Heiner
CPC分类号: A47K5/1217 , A47K5/1207 , A47K5/1214 , A61L2/0088 , A61L2/183 , A61L2/235 , A61L2202/11 , B05B11/308 , B05B11/3087 , G01F11/021 , G01F11/025
摘要: A dispensing apparatus (10) including a product dispenser (12) in which product is dispensed by manual movement of an activation mechanism as, for example, by moving a lever (27) with a person's hand, arm or foot. The dispensing apparatus includes an electrical generator (18) for generating electrical energy as a result of the manual movement of the activation mechanism, preferably by electromagnetic induction, electrochemistry or piezoelectricity. The electrical energy from the generator may be utilized in the dispensing apparatus to power a data communication unit (48) for receiving information about the product dispenser and transmitting the information to a receiver (68), preferably but not necessarily wirelessly. The relative amounts of electrical energy generated may be used to estimate the amount of fluid dispensed and the extent to which a fluid reservoir is full.
摘要翻译: 一种包括产品分配器(12)的分配设备(10),其中例如通过用人的手,手臂或脚移动杆(27)而通过手动移动激活机构来分配产品。 该分配装置包括发电机(18),该发电机(18)优选通过电磁感应,电化学或压电来作为激活机构的手动移动的结果而产生电能。 来自发生器的电能可用于分配装置中以向数据通信单元(48)供电,以接收关于产品分配器的信息并将信息发送到接收器(68),优选但不一定是无线的。 产生的电能的相对量可用于估计分配的流体量和流体储存器充满的程度。
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公开(公告)号:EP2707333B1
公开(公告)日:2016-10-05
申请号:EP12725150.2
申请日:2012-05-11
申请人: Arcaqua (pty) Ltd
IPC分类号: C02F1/78 , A23L3/00 , A23L3/3589 , A61L2/18 , C02F1/00
CPC分类号: A23L3/003 , A23L3/3589 , A61L2/183 , C02F1/008 , C02F1/78 , C02F2209/40 , C02F2303/04 , C02F2307/06
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4.发明授权
公开(公告)号:EP2322068B1
公开(公告)日:2016-04-20
申请号:EP11000051.0
申请日:2010-02-26
申请人: Gotohti.com Inc.
发明人: Ophardt, Heiner
CPC分类号: A47K5/1217 , A47K5/1207 , A47K5/1214 , A61L2/0088 , A61L2/183 , A61L2/235 , A61L2202/11 , B05B11/308 , B05B11/3087 , G01F11/021 , G01F11/025
摘要: A dispensing apparatus (10) including a product dispenser (12) in which product is dispensed by manual movement of an activation mechanism as, for example, by moving a lever (27) with a person's hand, arm or foot. The dispensing apparatus includes an electrical generator (18) for generating electrical energy as a result of the manual movement of the activation mechanism, preferably by electromagnetic induction, electrochemistry or piezoelectricity. The electrical energy from the generator may be utilized in the dispensing apparatus to power a data communication unit (48) for receiving information about the product dispenser and transmitting the information to a receiver (68), preferably but not necessarily wirelessly. The relative amounts of electrical energy generated may be used to estimate the amount of fluid dispensed and the extent to which a fluid reservoir is full.
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公开(公告)号:EP2388018B1
公开(公告)日:2016-04-13
申请号:EP11380004.9
申请日:2011-01-25
IPC分类号: A61L2/18
CPC分类号: A61L2/183 , A61L2202/15 , A61L2202/16
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6.发明公开PROCESSING METHOD AND PROCESSING DEVICE FOR IMPLANT MATERIAL HAVING EXCELLENT BIOCOMPATIBILITY 有权VERARBEITUNGSVERFAHREN UND VERARBEITUNGSVORRICHTUNGFÜREIN植物性麻省理工学院生物学家BIOKOMPATIBILITÄT
公开(公告)号:EP2883553A4
公开(公告)日:2016-03-23
申请号:EP13879455
申请日:2013-08-07
CPC分类号: A61L2/183 , A61C8/0015 , A61C2008/0046 , A61L27/06 , A61L27/50 , A61L2202/21 , A61L2400/18 , C23C22/68 , C23G1/106 , C23G1/24
摘要: A method for treating an implant material having excellent biocompatibility, particularly, a method and an apparatus for treating a dental implant material. A method and an apparatus for treating an implant material having excellent biocompatibility, in which a surface-roughened implant material containing titanium and a titanium alloy is immersed in electrolyzed ozone water, and the electrolyzed ozone water is held at normal temperature, thereby preventing contamination due to adsorption of carbide on the surface of the implant material and imparting hydrophilicity.
摘要翻译: 一种用于治疗具有优异生物相容性的植入材料的方法,特别是用于治疗牙种植体材料的方法和装置。 一种用于处理具有优异的生物相容性的植入材料的方法和装置,其中将含有钛和钛合金的表面粗糙植入材料浸入电解臭氧水中,并将电解臭氧水保持在常温下,从而防止污染 以使碳化物吸附在植入材料的表面上并赋予亲水性。
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公开(公告)号:EP2582472A4
公开(公告)日:2016-02-24
申请号:EP11796201
申请日:2011-06-09
发明人: LYNN DANIEL W
CPC分类号: B01F3/04475 , A61L2/183 , A61L2202/11 , B01F3/04503 , B01F3/04985 , B01F5/0068 , B01F5/0415 , B01F13/065 , B01F2003/04886 , B01F2215/0468 , B08B2203/005 , C02F1/78 , C11D3/3947 , C11D11/0041
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公开(公告)号:EP2342327B1
公开(公告)日:2016-02-24
申请号:EP09793240.4
申请日:2009-10-01
发明人: DICOSIMO, Robert , BEN-BASSAT, Arie , CAHILL, William R. , DIPIETRO, David George , HANN, Eugenia Costa , PAYNE, Mark S. , REYNOLDS, Richard Alan , ZOLANDZ, Raymond Richard
CPC分类号: C12N9/18 , A61L2/183 , A61L2/186 , A61L2/22 , A61L2202/24 , C11D3/06 , C11D3/10 , C11D3/201 , C11D3/2017 , C11D3/2044 , C11D3/2048 , C11D3/2068 , C11D3/2079 , C11D3/2082 , C11D3/2086 , C11D3/2093 , C11D3/221 , C11D3/226 , C11D3/32 , C11D3/361 , C11D3/38636 , C11D3/3947 , C11D17/041 , C12P7/40 , C12Y301/01001 , Y02E50/16
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公开(公告)号:EP2969967A1
公开(公告)日:2016-01-20
申请号:EP14764113.8
申请日:2014-03-14
IPC分类号: C02F1/32
CPC分类号: E04H4/1209 , A61L2/10 , A61L2/183 , A61L2202/11 , A61L2202/122 , C02F1/325 , C02F1/78 , C02F2103/20 , C02F2103/42 , C02F2201/3222 , C02F2201/3227 , C02F2201/3228 , C02F2201/326 , C02F2201/328 , C02F2201/784 , C02F2301/02 , C02F2303/04 , C02F2305/023
摘要: Improved fluid sanitization assemblies are provided. More particularly, the present disclosure provides improved fluid/water sanitization assemblies utilizing UV light and/or ozone. The UV light and/or ozone can be generated via light emitting diodes ("LEDs") (e.g., via UV LEDs). In certain embodiments, by emitting light at a wavelength of about 250 nm to about 270 nm (e.g., 253.7 nm), the fluid sanitization assemblies thereby disinfect and/or sanitize fluid/water. The present disclosure provides for a fluid sanitization assembly including a pressure vessel configured and dimensioned to house fluid; a plurality of light emitting diodes ("LEDs") mounted with respect to the pressure vessel, each LED mounted with respect to the pressure vessel via an optic member; wherein each optic member is configured and dimensioned to focus and direct UV light emitted from its associated LED to the fluid within the pressure vessel for sanitization purposes.
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10.发明公开STERILIZATION METHOD COMPRISING STERILIZATION FLUID AND ULTRASONICALLY GENERATED CAVITATION MICROBUBBLES 审中-公开与液体杀菌和灭菌超声方法生成KAVITATIONSMIKROBLÄSCHEN
公开(公告)号:EP2922579A1
公开(公告)日:2015-09-30
申请号:EP13857428.0
申请日:2013-11-19
发明人: BOTOS, George , ELIAS, Radu , VORMBAUM, Manfred
摘要: A sterilization method and apparatus uses ultrasonic vibrations and a sterilant bath, preferably ozone or hydrogen peroxide, for cleaning, disinfecting or sterilizing an article, whereby the ultrasonic vibrations generate cavitation microbubbles for damaging microbiological forms in the bath or on the article. The cavitation microbubbles have a diameter of 1-20 microns, preferably 1-10 microns. The use of cavitation microbubbles makes the method and apparatus more effective against microbiological forms. The cavitation microbubbles are generated at ultrasonic vibration frequencies above 100 k Hz and up to 2 Mhz, preferably 250 k Hz to 2 MHz and most preferably at about 500 k Hz.
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