| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | 计算机控制的系统和混凝土喷射装置 | CN201520552436.1 | 2015-07-28 | CN205735414U | 2016-11-30 | 兰·伯曼 |
| 本实用新型公开了一种计算机控制的系统和用于制备和喷射混凝土的混凝土喷射装置。优选由聚苯乙烯制得的工件被成形为具有所需结构的三维模型,其中优选通过热丝泡沫切割机以及随后的铣削来进行所述成形过程。将一层聚合物(优选蜡和油的混合物)应用至所述模型,随后再将建筑材料(例如混凝土、石膏、粘土、人造大理石等)铺设在所述模型上,接着在建筑材料初凝后从所述模型上拆下所述建筑构件。在本实用新型的优选实施例中,所述模型的成形和所述建筑材料的铺设是电脑控制的,并且进行所述成形和铺设的同时,所述工件或模型被支撑在可移动的支撑台上。 | ||||||
| 182 | EXTRUSION METHOD FOR PRODUCING A FLAT FIBRE MADE FROM SYNTHETIC RAW MATERIAL | PCT/RU2012000144 | 2012-02-29 | WO2012121624A3 | 2012-11-15 | DOKUKIN ALEKSEY NIKOLAEVICH |
| The invention relates to polymer processing and, in particular, to the production of flat synthetic fibres with predetermined characteristics by means of polymer extrusion. The method involves forming at least two melts with different properties, distributing these melts across at least three layers to form a synthetic film, cooling said film, cutting the film into strips, stretching the cut strips to form fibres and winding the resultant fibres onto cores. The synthetic raw material is used in the form of granules, powder or an agglomerate. The resultant film is cooled in a water-filled bath. Once the film has been cooled, water is removed from the surface thereof. The inner layer of the film is formed with a filler based on calcium carbonate in the amount of 0.1-50% of the mass of the main raw material of the inner layer. The technical result of the invention is a reduction in the manufacturing cost of the product and of the wear on the extrusion line. | ||||||
| 183 | DEVICE FOR CUTTING PLASTIC PRODUCTS PROVIDED IN A CONTINUOUS PLASTIC BAND FOR USE IN THE MEDICAL SECTOR | PCT/EP2011001157 | 2011-03-09 | WO2011110337A3 | 2012-08-30 | KIEBURG HEINZ; FRANZKE REINER |
| The present invention describes a device for cutting interconnected plastic products for use in the medical sector provided in a continuous band of plastic, comprising at least one laser, at least one laser control system and at least one optical acquisition and data processing unit. Furthermore, the present invention is directed to a device for the manufacture of plastic products, especially tillable or filled plastic containers for use in the medical sector, comprising the device for cutting interconnected plastic products provided in a continuous band of plastic as well as a process for cutting interconnected plastic products provided in a continuous band of plastic. In particular the present invention is directed to a device for cutting interconnected plastic products for use in the medical sector provided in a continuous band of plastic, wherein the device comprises at least one laser, at least one laser control system and at least one optical acquisition and data processing unit. The optical acquisition unit determines positional data for the interconnected plastic products provided in the band. From the positional data a cutting pattern is calculated, which is transmitted to the laser control system. According to this cutting pattern, the position, intensity and focal point of the at least one laser is controlled by the laser control system, which comprises a focusing optic, a deflection means and a beam-forming means. | ||||||
| 184 | METHOD FOR PRODUCING A SILICONE FOIL, SILICONE FOIL AND OPTOELECTRONIC SEMICONDUCTOR COMPONENT COMPRISING A SILICONE FOIL | PCT/EP2011064174 | 2011-08-17 | WO2012045511A3 | 2012-06-07 | PREUSS STEPHAN; GELTL TOBIAS; SCHILLER THOMAS; GALLMEIER HANS-CHRISTOPH |
| In at least one embodiment of the method, the latter serves for producing a silicone foil (2) by means of molding for use in an optoelectronic semiconductor component (10). The method comprises the following steps: introducing a mold foil (1) into a mold (5), introducing a carrier foil (3) into the mold (5), wherein the carrier foil (3) is fitted on a substrate foil (4) and the substrate foil (4) projects laterally beyond the carrier foil (3), providing and applying a silicone base composition (20) to the mold foil (1) or to the carrier foil (3), molding the silicone base composition (20) to form the silicone foil (2) between the mold foil (1) and the carrier foil (3), wherein the silicone base composition is brought into contact with the substrate foil (4) in an overlap region (24) laterally alongside the carrier foil (3), removing the mold foil (1) from the silicone foil (2), and separating the overlap region (24). | ||||||
| 185 | CATHETERS WITH LUBRICIOUS LININGS AND METHODS FOR MAKING AND USING THEM | PCT/US2009036701 | 2009-03-10 | WO2009114556A3 | 2009-12-17 | EVERSULL CHRISTIAN S; LEEFLANG STEPHEN A |
| Apparatus and methods are provided for creating tubular devices, e.g., as components for catheters, sheaths, and or other devices sized for introduction into a patient. In one embodiment, a method is provided for making a tubular device using a sheet of material including a coated first surface. The sheet is rolled around a mandrel until longitudinal edges of the sheet are disposed near or adjacent one another, e.g., without attaching the longitudinal edges together. A tubular braid is positioned over the sheet- wrapped mandrel, one or more tubular segments are positioned over the tubular braid, and heat shrink tubing is positioned over the tubular segments. The resulting assembly is heated to cause the tubular segments to at least partially reflow and/or otherwise laminate the tubular segments to the tubular braid and sheet. The heat shrink tubing and mandrel are then removed to create the tubular device. | ||||||
| 186 | RESILIENT CORES WITH CONVECTION BARRIERS PARTICULARLY FOR INFLATABLE BODIES AND METHODS FOR MAKING THE SAME | PCT/US2009000206 | 2009-01-12 | WO2009089077A3 | 2009-08-20 | LINCOLN JOHN S; JACOT DOUGLAS S; BOWERS BRANDON W; GUTKA JAY; MARSON JAMES E |
| A resilient core of material comprising: a mechanically unitary slab; a plurality of holes or bores defined by the slab; thermal transmission mitigation means for improving the core's resistance to heat transfer. | ||||||
| 187 | PROCESSES AND APPARATUS FOR MAKING TRANSVERSELY DRAWN FILMS WITH SUBSTANTIALLY UNIAXIAL ORIENTATION | PCT/US0217148 | 2002-05-29 | WO02096621A8 | 2005-03-03 | MERRILL WILLIAM WARD; JACKSON JEFFERY N; RUFF ANDREW T; WHEATLEY JOHN A; KRUEGER DENNIS L |
| The present invention relates to a method of processing a film, the method comprising conveying a film (40) within a stretcher (30') along a machine direction while holding opposing edge portions of the film, and stretching the film to a draw ratio in excess of four within the stretcher by moving the opposing edge portions along diverging, non-linear, coplanar paths (64) to form a stretched film, wherein, during the stretching of the film, the minimum value of the extent of uniaxial character, U, is at least 0.8 over a final portion of the stretching after achieving a TDDR of 2.5 and U is less than 1 at the end of the stretching, wherein U is defined as U = (1/MDDR - 1) / (TDDR 1/2 - 1) wherein MDDR is the machine direction draw ratio corresponding to a divergence angle of the diverging paths and TDDR is the transverse direction draw ratio as measured between the diverging paths. | ||||||
| 188 | 임프린트 마스터 템플릿 및 이의 제조 방법 | KR20160101479 | 2016-08-09 | KR20180018890A | 2018-02-22 | HAN KANG SOO; AN MOON JUNG; JO GUG RAE; CHO HYUNG BIN |
| 임프린트마스터템플릿은상면에미세패턴이형성된제1 미세패턴유닛, 상기제1 미세패턴유닛에인접하고, 상면에미세패턴이형성된제2 미세패턴유닛, 및상기제1 미세패턴유닛및 상기제2 미세패턴유닛을지지하는지지부를포함한다. 상기제1 미세패턴유닛의측면은상기제2 미세패턴유닛의측면과마주본다. 상기제1 미세패턴유닛의상기측면은상기상면과수직한제1 면및 상기제1 면과소정각도경사진제2 면을포함한다. 상기제2 미세패턴유닛의상기측면은상기상면과수직한제1 면및 상기제1 면과소정각도경사진제2 면을포함한다. | ||||||
| 189 | 유체 유동 구조체 성형 | KR1020157023514 | 2013-03-20 | KR101827070B1 | 2018-02-07 | 첸치앤-후아; 컴비마이클더블유; 아가왈아룬케이 |
| 일실시예에있어서, 마이크로디바이스구조체를제조하는방법은, 마이크로디바이스를재료의단일몸체내에성형하는단계와, 유체가상기마이크로디바이스로직접통과할수 있게하는유체유동통로를상기몸체내에형성하는단계를포함한다. | ||||||
| 190 | 패키지 구조체들 내에 트렌치들을 형성하는 방법들 및 이에 의해 형성되는 구조체들 | KR20187002104 | 2016-05-24 | KR20180011864A | 2018-02-02 | |
| 트렌치를포함하는패키지구조체들을형성하는방법들이기술된다. 실시예는제1 기판상에배치되는제1 다이, 및상기제1 기판의주변영역상에배치되는적어도하나의상호접속구조체를포함한다. 몰딩컴파운드가제1 기판의일부분상에그리고제1 다이상에배치되고, 트렌치개구는적어도하나의상호접속구조체와제1 다이사이에배치되는몰딩컴파운드내에배치된다. | ||||||
| 191 | 고성능 피로저항 및 고단열 특성을 가지는 유리강화섬유 발포수지 폼을 적용한 운송체용 구조체 및 그 제조방법 | KR1020160048146 | 2016-04-20 | KR1020170119896A | 2017-10-30 | 김정철; 김민규; 이승우; 최병민 |
| 본발명에따른운송체용샌드위치구조체는, 심재(코어)를형성하는판 형상의발포수지체및 상기발포수지체두께방향의한쪽측또는양쪽측에위치한표면재를형성하는섬유강화복합재층및 상기발포수지체와섬유강화복합재층사이에심재와표면재의결합층으로이루어지고, 상기발포수지체내에는다수의유리섬유가삽입되고, 상기각각의유리섬유와상기발포수지체의길이방향이이루는각의크기가 45도를초과하고, 90도이하를만족하는유리섬유의비율이전체유리섬유의 70퍼센트이상이고, 상기유리섬유의한쪽또는양쪽말단이전체적으로발포수지체위로노출되어, 노출된유리섬유가결합층및 섬유강화복합재층에함침된것을특징으로한다. 또한, 본발명에따른운송체용샌드위치구조체는, 발포수지체위로노출된유리섬유의높이가 0.5~10mm인것을특징으로한다. 본발명에따른운송체용샌드위치구조체는심재부의발포수지체와표면부의섬유강화복합재간의결합력이증강되어굴곡피로성능이개선되는효과가있다. 또한발포수지체내에삽입된유리섬유가두께방향으로배향되어굴곡최대하중이크고, 하중시처짐량이적은효과가있다. | ||||||
| 192 | 중합체 필름을 신장시키고 수거하기 위한 장치 및 방법 | KR1020177019966 | 2015-12-16 | KR1020170089021A | 2017-08-02 | 잭슨제프리엔 |
| 필름(50) 가공장치(20)는필름신장장치(22) 및수거장치(24)를포함한다. 수거장치는신장장치후에필름을수용하고운송방향(X)으로이송영역을따라필름을운송한다. 수거장치는대향하는제1 및제2 컨베이어조립체를포함한다. 제1 컨베이어조립체는복수의개별패드(180a, 180b)를이동시키는연속벨트를갖는다. 각각의패드는리딩에지(200b)와트레일링에지(202a) 사이에서연장되는접촉면(194a, 194b)을형성한다. 패드는제1 및제2 패드가이송영역을횡단함에따라제1 패드(180a)의트레일링에지(202a)가바로인접한제2 패드(180b)의리딩에지(200b)와중첩되도록구성되고배열된다. 중첩은제1 및제2 패드를통과하는운송방향에수직인선(322)을특징으로한다. 접촉면의형상은운송방향에비-수직및 비-평행인주 중심축을한정할수 있다. 본발명은또한이러한장치를사용하여필름을가공하는방법에관한것이다. | ||||||
| 193 | 금속 자성 분말 함유 시트, 인덕터의 제조 방법 및 인덕터 | KR1020170002445 | 2017-01-06 | KR1020170083506A | 2017-07-18 | 모리우찌,요시유끼; 도모히로,다까시; 후꾸시마,미쯔히로 |
| 경화물을다이서에의해절단하거나, 경화물에대하여표면연마를행하였을때에탈립이발생하기어려워, 항절강도나 L값이우수한인덕터를제조할수 있는금속자성분말함유시트를제공하는것이다. 금속자성분말과, 페녹시수지와, 에폭시수지를포함하고, 상기에폭시수지 100중량부에대한상기페녹시수지의함유량이 50중량부이상, 150중량부이하인것을특징으로하는금속자성분말함유시트이다. | ||||||
| 194 | 차량 외장용 섬유 부품 및 제조 방법 | KR1020150062940 | 2015-05-06 | KR101704195B1 | 2017-02-13 | 이동욱; 이수남 |
| 본발명은표피층과, 접착제층과, 흡음패드층을포함하는차량외장용섬유부품및 제조방법에관한것이다. 본발명은직경이 30 내지 60 ㎛인보강섬유로구성된웹을적층한다층구조의표피층을포함하여뛰어난내구성을가진다. 또한본 발명은상기표피층의공극과상기흡음패드층에서 2번에걸쳐소음을흡수하므로흡음성능이뛰어나다. 또한본 발명은기존의오일팬에주로적용되던스틸(Steel) 소재와달리섬유, PU폼등의가벼운소재로구성되어있으므로차량의경량화에크게기여할수 있다. | ||||||
| 195 | 열전도 시트의 제조 방법, 열전도 시트 및 방열 부재 | KR1020157035956 | 2014-06-27 | KR101682328B1 | 2016-12-05 | 아라마키게이스케; 요시나리아츠야; 이시이다쿠히로; 우치다신이치; 이토마사히코 |
| 열전도시트의밀착성을향상시켜열전도성을향상시킨다. 바인더수지에열전도성필러가함유된열전도성수지조성물을소정형상으로성형하여경화시킴으로써, 열전도성수지조성물의성형체를얻는공정과, 성형체를시트상으로절단하여성형체시트를얻는공정과, 성형체시트를프레스하는공정을갖는다. | ||||||
| 196 | 차량 외장용 섬유 부품 및 제조 방법 | KR1020150062940 | 2015-05-06 | KR1020160137909A | 2016-12-02 | 이동욱; 이수남 |
| 본발명은표피층과, 접착제층과, 흡음패드층을포함하는차량외장용섬유부품및 제조방법에관한것이다. 본발명은직경이 30 내지 60 ㎛인보강섬유로구성된웹을적층한다층구조의표피층을포함하여뛰어난내구성을가진다. 또한본 발명은상기표피층의공극과상기흡음패드층에서 2번에걸쳐소음을흡수하므로흡음성능이뛰어나다. 또한본 발명은기존의오일팬에주로적용되던스틸(Steel) 소재와달리섬유, PU폼등의가벼운소재로구성되어있으므로차량의경량화에크게기여할수 있다. | ||||||
| 197 | 3차원 형상 조형물의 제조 방법 | KR1020147036900 | 2013-03-06 | KR101666102B1 | 2016-10-13 | 아베사토시; 마쓰모토이사무; 다케나미마사타카; 곤도마사키; 후와이사오; 우치노노요시유키 |
| 조사패스가구분된조건하에서행하는광빔조사로생길수 있는 "국소적융기부"를감소시키는「3차원형상조형물의제조방법」을제공하는것. 본발명의제조방법은, (i) 광빔을주사함으로써분말층의소정영역에광빔을조사하여상기소정영역의분말을소결또는용융고화시켜고화층을형성하는단계, 및 (ii) 얻어진고화층상에새로운분말층을형성하고, 그새로운분말층의소정영역에광빔을조사하여다른고화층을형성하는단계에의해분말층형성및 고화층형성을반복하여행하는 3차원형상조형물의제조방법으로서, 상기소정영역에서의광빔의조사패스가, 복수의서브조사패스로구분되어있고, 그에따라, 이러한서브조사패스로서, 소정길이미만의짧은서브조사패스와소정길이이상의긴 서브조사패스가포함되어있고, 단계 (i) 및 (ii)에있어서는, 서브조사패스의길이에따라서광빔의조사방법을변경하는것을특징으로하는, 3차원형상조형물의제조방법이다. | ||||||
| 198 | 크래시패드의 제조 장치 | KR1020150033391 | 2015-03-10 | KR101662538B1 | 2016-10-06 | 공병석 |
| 본발명은크래시패드의제조장치에관한것으로서, 보다상세하게는, 일측에는기재를형성하는사출구를형성한제 1 금형과, 한쌍의사출코어와한쌍의스킨성형용플러그를구비한제 2 금형과, 기재와스킨사이로발포물을주입하는발포부와스킨에엠보싱처리를수행하는스킨성형부를가진제 3 금형으로이루어지며, 상기제 1 금형과제 2 금형및 제 3 금형을동시에합체시킴으로써, 제 1 금형의사출구와제 2 금형의사출코어에의하여기재를형성하고, 제 2 금형의스킨성형용플러그와제 3 금형의스킨성형부에의하여스킨에엠보싱처리를수행하면서동시에제 2 금형의사출코어와제 3 금형의발포부에의하여스킨과기재사이에발포물을주입하는것을특징으로하는크래시패드의제조장치에관한것이다. | ||||||
| 199 | 유체 유동 구조체 성형 | KR1020157023514 | 2013-03-20 | KR1020150110802A | 2015-10-02 | 첸치앤-후아; 컴비마이클더블유; 아가왈아룬케이 |
| 일실시예에있어서, 마이크로디바이스구조체를제조하는방법은, 마이크로디바이스를재료의단일몸체내에성형하는단계와, 유체가상기마이크로디바이스로직접통과할수 있게하는유체유동통로를상기몸체내에형성하는단계를포함한다. | ||||||
| 200 | 톱 절삭 채널을 갖춘 몰딩된 유체 유동 구조체 | KR1020157023290 | 2013-06-27 | KR1020150110789A | 2015-10-02 | 첸치앤-후아; 컴비마이클더블유; 아가왈아룬케이 |
| 일실시예에있어서, 유체유동구조체는몰딩에매설된마이크로디바이스를포함한다. 유체이송구멍은마이크로디바이스를통해형성되고, 톱에의해규정되는유체채널은몰딩을통해절삭되어유체이송구멍과채널을유체유동가능하게연결한다. | ||||||
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