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1. 发明专利

ZA201502843B RECIPROCATING LOW-SPEED HEAVY-LOAD HYDRAULIC PUMP WITH VARIABLE ACTION AREA 未知
公开(公告)号：ZA201502843B
公开(公告)日：2016-01-27
申请号：ZA201502843
申请日：2015-04-24
申请人： SUN WEI
发明人： SUN WEI

2. 发明专利

AU2012253339A1 Spiro-oxindole MDM2 antagonists 未知
公开(公告)号：AU2012253339A1
公开(公告)日：2014-01-09
申请号：AU2012253339
申请日：2012-05-11
申请人： UNIV MICHIGAN , SANOFI SA , WANG SHAOMENG , SUN WEI , GARCIA-ECHEVERRIA CARLOS , AGUILAR ANGELO
发明人： WANG SHAOMENG , SUN WEI , AGUILAR ANGELO , GARCIA-ECHEVERRIA CARLOS
IPC分类号： C07D487/10 , A61K31/407 , A61P35/00 , C07D413/12
摘要： Provided herein are compounds, compositions, and methods in the field of medicinal chemistry. The compounds and compositions provided herein relate to spiro oxindoles which function as antagonists of the interaction between p53 and MDM2, and their use as therapeutics for the treatment of cancer and other diseases.

3. 发明专利

AU2009100899A4 Handsfree external sound switch 未知
公开(公告)号：AU2009100899A4
公开(公告)日：2009-10-22
申请号：AU2009100899
申请日：2009-09-09
申请人： SUN WEI CHANG
发明人： CHANG SUN-WEI
IPC分类号： H04R5/033 , H04R1/10

4. 发明专利

DK2902628T3 LAVHASTIGHEDS TUNGT BELASTET HYDRAULISK STEMPELPUMPE MED VARIABELT VIRKNINGSOMRÅDE 未知
公开(公告)号：DK2902628T3
公开(公告)日：2018-06-14
申请号：DK12885646
申请日：2012-09-25
申请人： SUN WEI
发明人： SUN WEI
IPC分类号： F04B49/18 , F03G7/08 , F04B3/00 , F04B5/02 , F04B7/00 , F04B9/02 , F04B23/06 , F04B49/22 , F04B49/24 , F04B53/10 , F04B53/14 , F04B53/16

5. 发明专利

ES2671936T3 Bomba hidráulica oscilante de carga pesada de baja velocidad con área de acción variable 未知
公开(公告)号：ES2671936T3
公开(公告)日：2018-06-11
申请号：ES12885646
申请日：2012-09-25
申请人： SUN WEI
发明人： SUN WEI
IPC分类号： F04B49/18 , F03G7/08 , F04B3/00 , F04B5/02 , F04B7/00 , F04B9/02 , F04B23/06 , F04B49/22 , F04B49/24 , F04B53/10 , F04B53/14 , F04B53/16
摘要： Un bomba hidráulica oscilante que comprende un orificio de entrada de aceite (D), un orificio de salida de aceite (C), un primer (1) y segundo (2) miembros móviles que se pueden mover uno con relación al otro, y una pluralidad de unidades (3) de cilindro hidráulico, teniendo cada unidad (3) de cilindro hidráulico: - una válvula de inversión propia (5) que tiene un orificio de aceite A y un orificio de aceite B, en la que dicho orificio de aceite A está conectado a dicho orificio de entrada de aceite (D), en donde dicha válvula de inversión (5) está en una posición de control, dicho orificio de aceite A está en comunicación con dicho orificio de aceite B, y cuando dicha válvula de inversión (5) no está en dicha posición de control, dicho orificio de aceite A no está en comunicación con dicho orificio de aceite B, - una válvula unidireccional propia (6) que tiene un orificio de entrada y un orificio de salida, en la que dicho orificio de entrada está conectado a dicho orificio de aceite B de dicha válvula de inversión propia (5), y dicho orificio de salida está conectado a dicho orificio de salida de aceite (C), y - un cilindro hidráulico propio (4) conectado a dicho segundo miembro móvil (2) a través de una segunda estructura mecánica, teniendo dicho cilindro hidráulico (4) una primera cámara y un pistón o un émbolo, en donde dicho pistón o dicho émbolo está conectado con dicho primer miembro móvil (1) a través de una primera estructura mecánica, en donde dicha primera cámara está conectada a dicho orificio de aceite B de dicha válvula de inversión propia (5) y dicho orificio de entrada de dicha válvula unidireccional propia (6), en la que un tamaño de un área de acción de la bomba hidráulica se puede cambiar conmutando una selección entre las válvulas de inversión (5) de dicha pluralidad de unidades (3) de cilindro hidráulico a dicha posición de control, para configurar diferentes combinaciones de funcionamiento de un número diferente o de diferentes magnitudes de área de las unidades (3) de cilindro hidráulico basándose en diferentes magnitudes de fuerza externa, caracterizada por que cada uno de dichos cilindro hidráulicos (4) está dividido por su pistón o su émbolo en dicha primera cámara y una segunda cámara, en donde dicha segunda cámara de control está conectada a dicho orificio de entrada de aceite (D).

6. 发明专利

CA2874863A1 MULTI-CHAMBER FOOD SCRAPS BIN 未知
公开(公告)号：CA2874863A1
公开(公告)日：2016-06-17
申请号：CA2874863
申请日：2014-12-17
申请人： SUN WEI HUA , YU XIAOWEI
发明人： SUN WEI HUA , YU XIAOWEI
IPC分类号： B65F1/00 , B65D25/04
摘要： A multi-chamber food scraps bin has independent multiple chambers. Each chamber is designed to contain one day or a few days' food scraps and then sealed with its individual lid prior to food scraps being rotted. Households or other kinds of users load fresh food scraps into individual chamber without re-open the filled-up chambers where food scraps might have been rotted. All of the individual lids are integrated onto a common main bin lid for quick disclosure on food scraps collection day. This invention may be used in combination with food scraps or trash bins of different sizes and shapes. This invention may benefit the air quality in households by decreasing the odor emission through less frequent lid opening of food scraps or trash bins while supporting the food scraps recycling program for sustainable community and environmental protection.

7. 发明专利

AU2012391449B2 Reciprocating low-speed heavy-load hydraulic pump with variable action area 未知
公开(公告)号：AU2012391449B2
公开(公告)日：2016-04-21
申请号：AU2012391449
申请日：2012-09-25
申请人： SUN WEI
发明人： SUN WEI
IPC分类号： F04B49/18
摘要： A reciprocating low-speed heavy-load hydraulic pump with a variable action area comprises a plurality of hydraulic cylinder units (3) and moving members (1, 2). Two ends of the hydraulic cylinder units (3) are separately connected with the moving members (1, 2) via mechanical structures. The moving members (1, 2) move relative to each other. The hydraulic cylinder unit (3) consists of a hydraulic cylinder (4), a reversing valve (5) and a one-way valve (6). The hydraulic cylinder (4), the reversing valve (5) and the one-way valve (6) are connected with each other via hydraulic pipelines. Based on different magnitudes of driving force, the hydraulic pump can proactively configure and form different combinations of hydraulic cylinder units, and further adjust the size of an equivalent action area. Therefore, even if the magnitude of the driving force changes, it can be ensured that the hydraulic pump consisting of hydraulic cylinder units outputs oil liquid with a relatively stable pressure for use by a subsequently connected system. The reciprocating low-speed heavy-load hydraulic pump with a variable action area is advantageous in high conversion efficiency, a simple system structure and good working stability.

8. 发明专利

NZ707315A Reciprocating low-speed heavy-load hydraulic pump with variable action area 未知
公开(公告)号：NZ707315A
公开(公告)日：2016-03-31
申请号：NZ70731512
申请日：2012-09-25
申请人： SUN WEI
发明人： SUN WEI
IPC分类号： F04B49/18 , F04B9/02 , F04B23/06
摘要： A reciprocating low-speed heavy-load hydraulic pump with a variable action area comprises a plurality of hydraulic cylinder units (3) and moving members (1, 2). Two ends of the hydraulic cylinder units (3) are separately connected with the moving members (1, 2) via mechanical structures. The moving members (1, 2) move relative to each other. The hydraulic cylinder unit (3) consists of a hydraulic cylinder (4), a reversing valve (5) and a one-way valve (6). The hydraulic cylinder (4), the reversing valve (5) and the one-way valve (6) are connected with each other via hydraulic pipelines. Based on different magnitudes of driving force, the hydraulic pump can proactively configure and form different combinations of hydraulic cylinder units, and further adjust the size of an equivalent action area. Therefore, even if the magnitude of the driving force changes, it can be ensured that the hydraulic pump consisting of hydraulic cylinder units outputs oil liquid with a relatively stable pressure for use by a subsequently connected system. The reciprocating low-speed heavy-load hydraulic pump with a variable action area is advantageous in high conversion efficiency, a simple system structure and good working stability.

9. 发明专利

AU2012391449A1 Reciprocating low-speed heavy-load hydraulic pump with variable action area 未知
公开(公告)号：AU2012391449A1
公开(公告)日：2015-05-14
申请号：AU2012391449
申请日：2012-09-25
申请人： SUN WEI
发明人： SUN WEI
IPC分类号： F04B49/18
摘要： A reciprocating low-speed heavy-load hydraulic pump with a variable action area comprises a plurality of hydraulic cylinder units (3) and moving members (1, 2). Two ends of the hydraulic cylinder units (3) are separately connected with the moving members (1, 2) via mechanical structures. The moving members (1, 2) move relative to each other. The hydraulic cylinder unit (3) consists of a hydraulic cylinder (4), a reversing valve (5) and a one-way valve (6). The hydraulic cylinder (4), the reversing valve (5) and the one-way valve (6) are connected with each other via hydraulic pipelines. Based on different magnitudes of driving force, the hydraulic pump can proactively configure and form different combinations of hydraulic cylinder units, and further adjust the size of an equivalent action area. Therefore, even if the magnitude of the driving force changes, it can be ensured that the hydraulic pump consisting of hydraulic cylinder units outputs oil liquid with a relatively stable pressure for use by a subsequently connected system. The reciprocating low-speed heavy-load hydraulic pump with a variable action area is advantageous in high conversion efficiency, a simple system structure and good working stability.

10. 发明专利

DE202013104327U1 Filter- und Reinigungsvorrichtung aus Edelstahl für den Lebensmittelbereich 未知
公开(公告)号：DE202013104327U1
公开(公告)日：2013-10-10
申请号：DE202013104327
申请日：2013-09-20
申请人： SUN WEI
IPC分类号： B01D29/11 , B01D39/06 , B01D39/10
摘要： Zweitfiltervorrichtung für eine Filter- und Reinigungsvorrichtung aus Edelstahl für den Lebensmittelbereich, beinhaltend zwei Zweitfiltervorrichtungen, die eine Zylinderform aufweisen, wobei die Zweitfiltervorrichtungen eine Zylinderaußenfläche, eine untere Zylinderabdeckung und einen Rand der Zylinderöffnung beinhalten, wobei bei der Zylinderaußenfläche von innen nach außen ein erstes Edelstahl-Stütznetz, eine erste Schicht in Form einer Faservorfilterschicht, ein zweites Edelstahl-Stütznetz, eine zweite Schicht in Form einer präzisen Trennschicht für den Ölnebel, eine dritte Schicht in Form einer hocheffizienten Mikroglasfaserschicht, eine vierte Schicht in Form einer präzisen Mikroglasfaserschicht, ein drittes Edelstahl-Stütznetz, eine fünfte Schicht in Form eines Faserschutznetzes und ein viertes Edelstahl-Stütznetz angeordnet sind, wobei große Luftmengen durch die Zylinderöffnungen der Zweitfiltervorrichtungen in das Innere der Zweitfiltervorrichtungen eingeht und weiter nacheinander durch das erste Edelstahl-Stütznetz, die erste Schicht in Form einer Faservorfilterschicht, die zweite Schicht in Form einer präzisen Trennschicht für den Ölnebel, die dritte Schicht in Form einer hocheffizienten Mikroglasfaserschicht zum Polymerisieren und Wiederverwerten, die vierte Schicht in Form einer präzisen Mikroglasfaserschicht zum Restrukturieren und Wiederverwerten, so dass diese eine Null-Verschmutzung garantiert, das dritte Edelstahl-Stütznetz und die fünfte Schicht in Form eines Faserschutznetzes, um die vierte Schicht in Form einer präzisen Mikroglasfaserschicht zu schützen, wobei das vierte Edelstahl-Stütznetz die feinstgefilterte Luft nach außen transportiert, wodurch der Effekt der Feinstfilterung erzielt wird.

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