子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 双轴向取向聚烯烃薄膜制造的包装材料 | CN01803864.6 | 2001-01-23 | CN1395525A | 2003-02-05 | T·德里斯; W·艾瑟 |
| 本发明涉及一种由多层取向聚烯烃薄膜制成的包装材料,该聚烯烃薄膜含有基础层和至少一个第一外层,由此使所述第一外层与其本身接触或与该薄膜的反面接触或与另一个薄膜的表面接触。这个第一外层中含有可在一种激光的波长范围内吸收光的添加剂,这样在采用该激光对薄膜局部辐射时,受辐射区域的温度升高,使第一外层的聚烯烃在受辐射区域软化或熔化并在冷却时粘合到另一层上。 | ||||||
| 22 | 对多孔反光片的切割和封边 | CN00807612.X | 2000-04-04 | CN1350484A | 2002-05-22 | J·D·亚诺维克 |
| 利用一种特别设计的装置和工具对多孔反光片的气室进行切割和封边的方法,将具有厚度T的片子加热至一热成形温度,形成一加热片子。将未加热的工具、加热的片子和一基底压在一起,对加热片子进行切割和封边。该工具具有一圆角形的凸脊,用与封边所需的形状类似的凸脊形状进行切割和封边。凸脊的高度相对片子的厚度限定。凸脊高度与片子厚度的比值小于1但大于0.2。工具可安装在一轮子的周界上,以便连续地对多条多孔片子进行切割和封边。通过(1)使封边的宽度达到最低程度、同时(2)使沿密封边缘的、能够经受耐水测试的封闭气室的数量达到最大程度使片子的反光性达到最大程度。 | ||||||
| 23 | 소방용 배관 | KR1020160057150 | 2016-05-10 | KR101691021B1 | 2016-12-29 | 임광훈 |
| 본발명은, 구조가간단하여제조가용이하게이루어져경제적인이익을구현함은물론, 밀폐성을확고히유지하여장시간안정적으로사용할수 있도록;신축되는신축부를가지는금속재질의관체와, 상기관체의일단에고정되며 CPVC 재질로이루어진소켓을포함하여이루어진소방용배관에있어서; 상기소켓은, 상기관체의일단이사출금형에끼움된상태에서사출성형되는인서트(insert) 사출성형공법을통해성형되되; 상기소켓과접하는상기관체의부위에는, 밀폐링이결합하는요철부가형성된소방용배관을제공한다. | ||||||
| 24 | 보호 플라스틱 파이프와 이 파이프의 제조방법 | KR1020037013909 | 2002-04-25 | KR100901747B1 | 2009-06-10 | 데헨나우클라우드; 마쯔피에르 |
| 다층 플라스틱 파이프와 이의 제조방법. 파이프는 사용할 때와 취급할 때 이의 성질의 퇴화로부터 보호되고, 제일층이 하위 플라스틱의 중합체 조성물과 상화할 수 있고, 제이층이 마무리 피막으로 작용하는 외부층인 비배향 구조를 갖는 중합체 조성물로 이루어지는 각 두 보호층에 의하여 보호되는 관형 중합체 지지체로 형성된다. 배향된 중합체 조성물로 이루어지는 테이프로 형성된 보강층은 지지체와 제일보호층 사이에 삽입된다. | ||||||
| 25 | 테트라플루오로에틸렌 코어 쉘 코폴리머로부터 형성된 고밀도 물품 및 이의 제조 방법 | KR1020177020021 | 2015-12-03 | KR1020170096176A | 2017-08-23 | 포드로렌스에이; 케네디미카엘이; 란샤오펑; 자일러토드에스; 섀퍼그레고리제이 |
| 약 50℃내지약 300℃의제1 흡열온도, 약 320℃내지약 350℃의제2 흡열온도, 및약 350℃내지약 400℃의제3 흡열온도를갖는코어/쉘테트라플루오로에틸렌(TFE) 코폴리머필름을포함하는고밀도물품이제공된다. 예시적인실시양태들에서, 제3 흡열온도는대략 380℃이다. 일부실시양태들에서, 제2 흡열온도는약 320℃내지약 330℃또는약 330℃내지약 350℃이다. TFE 코폴리머필름은약 20 ㎍*미크론/㎠/분미만의메탄투과율을갖는다. 부가적으로, 고밀도물품은약 20% 미만의공극체적을갖는다. 고밀도물품은 TFE 코폴리머필름을치밀화하고경우에따라추가연신함으로써제조된다. 고밀도물품은개선된물리적및 기계적성질예컨대부착및 배리어성질을나타낸다. | ||||||
| 26 | 혼합플라스틱의 미분 및 그 제조방법 | KR1020077024555 | 2006-08-29 | KR1020070116659A | 2007-12-10 | 아사누마미노루; 하라요시아키; 가지오카마사히코; 아리야마다츠로; 하야시아키오; 다카시마노부히로; 데라다가네오; 오오가키요우지 |
| A process for producing a fine powder of mixed plastics, comprising the steps of preparing mixed plastics whose chlorine concentration is in the range of 2 to 20 mass% by an increase or decrease of at least one plastic selected from the group consisting of a chlorinated plastic and a nonchlorinated plastic; agitating the mixed plastics in molten form to thereby attain dechlorination to a chlorine concentration of 0.9 mass% or below; cooling the agitated matter having been dechlorinated to thereby solidify the same; and pulverizing the solidified matter. By the application of this process, rather increasing of the chlorine concentration of waste plastic as long as the chlorine concentration falls within a given range accelerates the agitation and dechlorination of molten waste plastic to thereby enable production of waste plastic powder that is rather very low in chlorine concentration and highly fine. Therefore, plastics having been discarded in living, industrial activity, etc. can be reutilized as a reducing agent, fuel, etc. | ||||||
| 27 | 광학 필름 및 이들의 제조 방법 | KR1020077007216 | 2005-09-19 | KR1020070057887A | 2007-06-07 | 그리너제휴다; 앤더슨찰스체스터; 버멜마커스스테판 |
| A method of film fabrication is taught that uses a coating and drying apparatus to fabricate resin films suitable for optical applications. In particular, resin films are prepared by simultaneous application of multiple liquid layers to a moving carrier substrate having low surface energy. After solvent removal, the resin films are peeled from the sacrificial carrier substrate. Films prepared by the current invention exhibit good dimensional stability and low out-of-plane retardation. | ||||||
| 28 | 중합체 편을 세척하기 위한 장치 | KR1020020072636 | 2002-11-21 | KR100527800B1 | 2005-11-15 | 우라베겐이찌; 이마이다까떼루 |
| 수집된 중합 몰드 제품의 좌굴된 편의 표면으로부터 코팅 또는 라벨과 같은 이물질을 충분히 제거할 수 있는 세척 장치가 제공된다. 세척 장치는 종방향으로 연장된 회전 샤프트(35)를 구비하고 중합체 편을 위해 물 공급 포트(11a), 배수 포트(12a), 도입 포트(21) 및 배출 포트(22)를 갖는 세척조(30)와, 회전 샤프트 상에 제공된 스크류를 갖는 스크류 섹션(41)과, 스크류에 의해 발생된 물의 진행을 제한하기 위해 세척조(30)의 내면으로부터 직립한 고정판을 갖는 유동 경로 제한 섹션(45)을 포함한다. | ||||||
| 29 | 접촉제 및 접촉제의 제조 방법과 제조 장치 | KR1020027003391 | 2000-09-13 | KR100444906B1 | 2004-08-18 | 아울,리챠드,제이.; 비노,올; 크렐,티모시,이.; 리,팔리; 트루엑스,앤드류,엘. |
| 본 발명은 양면을 갖는 적어도 두 접촉 시트(10,22)와, 각각의 접촉 시트(10,22)의 한쪽 표면에서 바깥쪽으로 돌출된 돌기(12,14,24,26)로 이루어진 접촉체(38)에 관한 것이다. 돌기(12,14,24,26)는 접촉 시트(10,22)의 반대쪽 표면에 형성된 홈을 한정하고, 접촉 시트(10)의 돌기(12,14)는 인접한 접촉 시트(22)의 홈 내에 배치되어 돌기-홈 커플링(34)을 형성한다. 돌기-홈 커플링(34)은 변형되어 확실한 맞물림(36)을 형성한다. 장치는 맞붙은 시트의 안쪽에 배치된 돌기-홈 커플링(34)과 맞붙은 시트(10, 22)의 양쪽 가장자리에 인접하게 배치된 돌기-홈 커플링(34)을 클림핑하여 확실한 맞물림(36)을 또한 형성하며, 이러한 맞물림에 의해 시트(10, 22)의 조립이 완성된다. | ||||||
| 30 | 중합체 편을 세척하기 위한 장치 | KR1020020072636 | 2002-11-21 | KR1020030041840A | 2003-05-27 | 우라베겐이찌; 이마이다까떼루 |
| PURPOSE: To provide a cleaning apparatus capable of sufficiently removing foreign substances such as a coating film and a label from the surface of crushed pieces of a recovered polymer molded article. CONSTITUTION: The cleaning apparatus has a cleaning tank 30 which is provided with a rotating shaft 35 in the longitudinal direction and has a water supply port 11a, a drain port 12a and a charging port 21 for polymer pieces, a discharge port 22 therefor, a screw part 41 which is provided for the rotating shaft and has a screw, and a flow passage regulating part 45 having a fixed plate which is so erected from the inside of the cleaning tank 30 as to suppress the advance of water brought about by the screw and of which the surface is roughened partially at least. | ||||||
| 31 | MELT-EXTRUDED POLYVINYL ALCOHOL WITH IMPROVED OPTICAL AND OLFACTORY PROPERTIES | PCT/US2007003412 | 2007-02-08 | WO2007095062A2 | 2007-08-23 | LAMBERT GEORGIA LYNN |
| Methods of reducing yellowness and odor in melt-extruded polyvinyl article include: (a) preparing a polyvinyl alcohol composition; (b) melt-extruding the polyvinyl alcohol composition into a film; and (c) treating the melt-extruded film with elevated levels of UV light, and ozone which have been found to have synergistic effects, especially with respect to yellowness and odor. | ||||||
| 32 | APPARATUS AND METHOD FOR CONTINUOUS VACUUM FORMING SHAPED POLYMERIC ARTICLES | PCT/US9926841 | 1999-11-12 | WO0027604B1 | 2000-11-02 | GILBERT THOMAS; BOSLER KENNETH D; DELL EDWARD C |
| This invention relates to methods and apparatus for manufacturing shaped polymeric articles by substantially continuous vacuum forming. The method includes providing a sheet (10) of hot polymeric material which is disposed onto a rotating belt (18) having a mold impression (11). Vacuum pressure is applied to the polymeric material through the belt (18) so as to draw the hot polymeric material into intimate contact with the mold impression (11) to form a patterned sheet portion and a remaining sheet portion. This method thereafter cools at least the patterned sheet portion below a heat deflection temperature of the polymeric material, forms the remaining sheet portion, and then cools the remaining sheet portion below the heat deflection temperature so that features other than the central pattern, such as nail and butt edges, can be mechanically worked into the polymeric sheet (10). | ||||||
| 33 | Method of applying adhesive coated film | US14949350 | 2015-11-23 | US09855732B2 | 2018-01-02 | Ronald S. Steelman; John R. David |
| An adhesive-applying method is disclosed herein. The method comprises: providing a film comprising pressure sensitive adhesive coated on a major surface thereof; heating the film to a softening point of the film; and pressing the film against a substrate with an application device, the application device comprising a film-contacting portion, the film-contacting portion comprising a foam material and having a thermal conductivity of less than 1.8 BTU in/(hr ft2° F.); wherein the pressure sensitive adhesive on the major surface of the film adheres to the substrate. Application devices and kits that may be used in conjunction with the method are also disclosed herein. | ||||||
| 34 | A PROCESS FOR PRODUCING A SECURITY FILM AND A SECURITY FILM | US15307270 | 2015-06-26 | US20170106642A1 | 2017-04-20 | Simon READ; Thierry GAVEL |
| The invention concerns a process for producing a security film, comprising: forming a polymeric film substrate having first and second surfaces and comprising one or more migratory additives; plasma treating at least a part of at least one surface of the polymeric film substrate; and promptly contacting a foil with the at least one part of the plasma treated surface of the polymeric film substrate such that the foil adheres to the polymeric film substrate. | ||||||
| 35 | SYSTEMS AND METHODS FOR JOINING BLADE COMPONENTS OF ROTOR BLADES | US14852945 | 2015-09-14 | US20170074236A1 | 2017-03-16 | Daniel Alan Hynum; James Robert Tobin; Christopher Daniel Caruso; Aaron A. Yarbrough |
| Systems and methods for joining blade components of a rotor blade are provided. A method includes positioning a first blade component and a second blade component such that a joint location of the first blade component and a joint location of the second blade component are proximate each other. The method further includes applying a force to an outer surface of the second blade component and an opposing force to an inner surface of the second blade component. The force and opposing force maintain an aerodynamic contour of the second blade component. The method further includes connecting the joint location of the first blade component and the joint location of the second blade component together. | ||||||
| 36 | IMPLANTS FOR CREATING CONNECTIONS TO TISSUE PARTS, IN PARTICULAR TO SKELETAL PARTS, AS WELL AS DEVICE AND METHOD FOR IMPLANTATION THEREOF | US14953869 | 2015-11-30 | US20160074083A1 | 2016-03-17 | Marcel Aeschlimann; Laurent Torriani; Antonino Lanci; Jörg Mayer |
| A method for locating a material having thermoplastic properties in pores of bone tissue includes providing a pin having the material having thermoplastic properties and a core, wherein the material having thermoplastic properties is arranged on the circumferential surface of the core constituting an outer region of the pin. An opening is provided in the bone tissue, and the pin is positioned at least partly in the opening. The outer region of the pin is then impinged with mechanical vibration energy for a time sufficient for liquefying at least part of the material having thermoplastic properties, and, in a liquefied state, pressing it into the pores of the bone tissue surrounding the opening. The vibration energy is stopped for a time sufficient for re-solidification of the liquefied material, and then the core is removed. | ||||||
| 37 | Implants for creating connections to tissue parts, in particular to skeletal parts, as well as device and method for implantation thereof | US13667278 | 2012-11-02 | US08945192B2 | 2015-02-03 | Marcel Aeschlimann; Laurent Torriani; Antonino Lanci; Jorg Mayer |
| Implants for forming a positive connection with human or animal parts include a material, such as thermoplastics and thixotropic materials, that can be liquefied by means of mechanical energy. The implants are brought into contact with the tissue part, are subjected to the action of ultrasonic energy while being pressed against the tissue part. The liquefiable material liquefies and is pressed into openings or surface asperities of the tissue part so that, once solidified, the implant is positively joined thereto. The implantation involves the use of an implantation device that includes a generator, an oscillating element, and a resonator. The generator causes the oscillating element to mechanically oscillate, and the element transmits the oscillations to the resonator. The resonator is used to press the implant against the tissue part to transmit oscillations to the implant. | ||||||
| 38 | COMPOUND LENS AND METHOD FOR MANUFACTURING SAME | US14498240 | 2014-09-26 | US20150015973A1 | 2015-01-15 | Takayasu NAGAI; Naoyuki MOROOKA; Tatsuhiko OBAYASHI |
| A compound lens produced by heating and pressing a semi-cured product of a curable resin composition containing a (meth)acrylate monomer, a non-conjugated vinylidene group-containing compound, and a photo-radical initiator and a transparent substrate arranged so as to be in contact with the semi-cured product in a state in which a molding die is filled with the semi-cured product and the transparent substrate, and obtaining a cured product by allowing the semi-cured product to be thermally polymerized, exhibits an excellent transfer property, a small number of bubble mixtures, and excellent heat resistance and crack resistance. | ||||||
| 39 | Implants for creating connections to tissue parts, in particular to skeletal parts, as well as device and method for implantation thereof | US11923172 | 2007-10-24 | US08323323B2 | 2012-12-04 | Marcel Aeschlimann; Laurent Torriani; Antonino Lanci; Jorg Mayer |
| Implants (7) for forming a positive connection with human or animal parts include a material, such as thermoplastics and thixotropic materials, that can be liquefied by means of mechanical energy. The implants (7) are brought into contact with the tissue part, are subjected to the action of ultrasonic energy while being pressed against the tissue part. The liquefiable material liquefies and is pressed into openings or surface asperities of the tissue part so that, once solidified, the implant is positively joined thereto. The implantation involves the use of an implantation device that includes a generator (2), an oscillating element, and a resonator (6). The generator (2) causes the oscillating element to mechanically oscillate, and the element transmits the oscillations to the resonator (6). The resonator (6) is used to press the implant (7) against the tissue part to transmit oscillations to the implant (7). | ||||||
| 40 | REINFORCED HOSE ASSEMBLY | US13154737 | 2011-06-07 | US20110297268A1 | 2011-12-08 | Rich Hahn; Elvis Alihodzic; George Fetzer |
| A reinforced hose assembly includes tubular inner layers with a uniform interior radial surface and an exterior radial surface. The tubular inner layer defines a longitudinal axis along a length thereof and comprises a first fluorocarbon polymer. The reinforced hose assembly also includes a bonding layer comprising a second fluorocarbon polymer. The bonding layer is disposed about the exterior radial surface of the tubular inner layer. The reinforced hose assembly also includes a reinforcing element comprising the second fluorocarbon polymer, attached to bonding layer and helically disposed about the tubular inner layer at a predetermined helical pitch measured relative to the longitudinal axis of the tubular inner layer. | ||||||
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