公开(公告)号：US08141572B2

公开(公告)日：2012-03-27

申请号：US12089204

申请日：2006-10-04

Applicant: Lars Stenmark ,  Pelle Rangsten

Inventor： Lars Stenmark ,  Pelle Rangsten

IPC: F16K17/16 ,  F16K17/40

CPC classification number: F16K17/383 ,  B64G1/402 ,  F16K17/403 ,  F16K99/0038 ,  Y10T137/0497 ,  Y10T137/1639 ,  Y10T137/1774 ,  Y10T137/8122 ,  Y10T137/8326

Abstract: An isolation valve system includes a main body (32), an actuator body (34) and a sealing membrane (307) arranged at a high pressure portion (36) of the isolation valve system. The sealing membrane mechanically attaches the actuator body to the main body. The sealing membrane further seals the high pressure portion from a low pressure portion (38). A burst plug (315) is arranged against the main body and supports the actuator body. An activation arrangement (50) is arranged for allowing an at least partial displacement of the burst plug, typically causing a phase transition. The sealing membrane is dimensioned to break when the actuator body is moved due to the displacement of the burst plug. The isolation valve system includes preferably a stack (30) of substrates (301-304) being bonded together. The substrates have micromechanical structures, which form at least the actuator body and the sealing membrane.

Abstract translation: 隔离阀系统包括设置在隔离阀系统的高压部分（36）处的主体（32），致动器主体（34）和密封膜（307）。 密封膜将致动器主体机械地附接到主体。 密封膜进一步将高压部分与低压部分（38）密封。 爆破塞（315）被布置成抵靠主体并支撑致动器主体。 激活装置（50）被布置成允许突发塞的至少部分位移，通常导致相变。 当致动器主体由于突发塞的位移而移动时，密封膜的尺寸被设计成断裂。 隔离阀系统优选地包括结合在一起的衬底（301-304）的堆叠（30）。 基板具有至少形成致动器主体和密封膜的微机械结构。

公开(公告)号：US20080265192A1

公开(公告)日：2008-10-30

申请号：US12089204

申请日：2006-10-04

Applicant: Lars Stenmark ,  Pelle Rangsten

Inventor： Lars Stenmark ,  Pelle Rangsten

IPC: F16K31/02

CPC classification number: F16K17/383 ,  B64G1/402 ,  F16K17/403 ,  F16K99/0038 ,  Y10T137/0497 ,  Y10T137/1639 ,  Y10T137/1774 ,  Y10T137/8122 ,  Y10T137/8326

Abstract: An isolation valve system includes a main body (32), an actuator body (34) and a sealing membrane (307) arranged at a high pressure portion (36) of the isolation valve system. The sealing membrane mechanically attaches the actuator body to the main body. The sealing membrane further seals the high pressure portion from a low pressure portion (38). A burst plug (315) is arranged against the main body and supports the actuator body. An activation arrangement (50) is arranged for allowing an at least partial displacement of the burst plug, typically causing a phase transition. The sealing membrane is dimensioned to break when the actuator body is moved due to the displacement of the burst plug. The isolation valve system includes preferably a stack (30) of substrates (301-304) being bonded together. The substrates have micromechanical structures, which form at least the actuator body and the sealing membrane.

Abstract translation: 隔离阀系统包括设置在隔离阀系统的高压部分（36）处的主体（32），致动器主体（34）和密封膜（307）。 密封膜将致动器主体机械地附接到主体。 密封膜进一步将高压部分与低压部分（38）密封。 爆破塞（315）被布置成抵靠主体并支撑致动器主体。 激活装置（50）被布置成允许突发塞的至少部分位移，通常导致相变。 当致动器主体由于突发塞的位移而移动时，密封膜的尺寸被设计成断裂。 隔离阀系统优选地包括结合在一起的基底（301〜304）的叠层（30）。 基板具有至少形成致动器主体和密封膜的微机械结构。

公开(公告)号：US20080097644A1

公开(公告)日：2008-04-24

申请号：US11666421

申请日：2005-11-01

Applicant: Viktor Kaznov ,  Fredrik Bruhn ,  Per Samuelsson ,  Lars Stenmark

Inventor： Viktor Kaznov ,  Fredrik Bruhn ,  Per Samuelsson ,  Lars Stenmark

IPC: B25J11/00 ,  B25J13/00 ,  B25J9/18

CPC classification number: B25J5/00 ,  A63H11/00 ,  A63H17/00 ,  A63H29/22 ,  A63H30/04

Abstract: Ball robot comprising a shell, a diametric main axle, at least one pendulum, and a drive mechanism comprising at least two drive motors, wherein the drive motors are arranged on the pendulum(s) in the vicinity of the inner surface of the shell. There is also provided a ball robot with a ball attached to the shell concentric the shell, and a drive mechanism located inside the shell and supported by the diametric axle, wherein the diametric axle is arranged to accommodate for dimensional changes of the shell along the main axis of rotation.

Abstract translation: 包括壳体，直径主轴，至少一个摆锤和包括至少两个驱动马达的驱动机构的球机器人，其中驱动马达布置在壳体内表面附近的摆锤上。 还提供了一种具有与外壳同心的球附着球的球机器人，以及位于壳体内部并由直径轴支撑的驱动机构，其中直径轴被布置成适应壳体沿着主体的尺寸变化 旋转轴。

公开(公告)号：US06993966B2

公开(公告)日：2006-02-07

申请号：US10479988

申请日：2002-06-10

Applicant: Lars Stenmark

Inventor： Lars Stenmark

IPC: G01F17/00

CPC classification number: G01F22/02 ,  G01F23/18

Abstract: A new high precision volume gauging system for measuring the volume of a propellant VL enclosed at a first pressure PU within a propellant tank (40) of a volume VT. The improved precision compared with prior art is achieved in that it comprises a high precision pressure sensor (90) which is comprised of a reference chamber (115) that is connected to the propellant tank (40) by a communication line (140), a valve (150) for controlling the gas flow through the line (140), and a high precision differential pressure sensor (95) that is arranged to record the pressure difference between the reference chamber (115) and the propellant tank (40) to which it is connected through a communication line (130).

Abstract translation: 一种新的高精度体积测量系统，用于测量在体积VT的推进剂罐（40）内封装在第一压力PU下的推进剂VL的体积。 实现了与现有技术相比提高的精度，其包括高精度压力传感器（90），其由通过通信线路（140）连接到推进剂罐（40）的参考室（115）组成， 用于控制通过管线（140）的气体流动的阀（150）和高精度差压传感器（95），其被配置为记录参考室（115）和推进剂罐（40）之间的压力差， 它通过通信线路（130）连接。

公开(公告)号：US08146735B2

公开(公告)日：2012-04-03

申请号：US12066703

申请日：2006-09-14

Applicant: Lars Stenmark

Inventor： Lars Stenmark

IPC: F17C1/00

CPC classification number: F17C11/00 ,  F17C11/005 ,  F17C2201/0128 ,  F17C2201/0147 ,  F17C2201/0157 ,  F17C2250/043 ,  Y02E60/321

Abstract: A gas storage system includes a tank, having a tank gas outlet, and a multitude of gas emitting entities encapsulated by the tank. The gas emitting entities are arranged for providing a gas volume, which when released from the gas emitting entities, is considerably larger than a volume of the gas emitting entities themselves. The gas emitting entities are freely contained in the tank. There are no gas conduits or electrical connections to the tank which has a sealable opening suitable for removal or insertion of the gas emitting entities. The latter have a respective gas release device, which is operable as a response on a stimulation signal. A volume surrounding the gas emitting entities inside the tank is the sole fluid connection between an opening of the gas release device and the tank gas outlet. Methods for storing and releasing gas are also presented.

Abstract translation: 一种气体存储系统包括具有罐气体出口的罐和由罐封装的多个气体发射实体。 气体发射实体被布置用于提供气体体积，当从气体发射实体释放时，气体体积显着大于气体发射实体本身的体积。 气体发射实体自由地容纳在罐中。 没有气体管道或电气连接到罐，其具有适于移除或插入气体发射实体的可密封开口。 后者具有相应的气体释放装置，其可用作对刺激信号的响应。 围绕罐内的气体发射实体的体积是气体释放装置的开口和罐气体出口之间的唯一流体连接。 还介绍了储存和释放气体的方法。

公开(公告)号：US08099189B2

公开(公告)日：2012-01-17

申请号：US11666421

申请日：2005-11-01

Applicant: Viktor Kaznov ,  Fredrik Bruhn ,  Per Samuelsson ,  Lars Stenmark

Inventor： Viktor Kaznov ,  Fredrik Bruhn ,  Per Samuelsson ,  Lars Stenmark

IPC: B25J11/00 ,  B25J13/00 ,  B25J9/18

CPC classification number: B25J5/00 ,  A63H11/00 ,  A63H17/00 ,  A63H29/22 ,  A63H30/04

Abstract: Ball robot comprising a shell, a diametric main axle, at least one pendulum, and a drive mechanism comprising at least two drive motors, wherein the drive motors are arranged on the pendulum(s) in the vicinity of the inner surface of the shell. There is also provided a ball robot with a ball shaped shell, a diametric axle attached to the shell concentric with the main axis of rotation of the shell, and a drive mechanism located inside the shell and supported by the diametric axle, wherein the diametric axle is arranged to accommodate for dimensional changes of the shell along the main axis of rotation.

Abstract translation: 包括壳体，直径主轴，至少一个摆锤和包括至少两个驱动马达的驱动机构的球机器人，其中驱动马达布置在壳体内表面附近的摆锤上。 还提供了一种具有球形壳体的球机器人，与壳体的主轴线同心的壳体的直径轴，以及位于壳体内部并由直径轴支撑的驱动机构，其中直径轴 被布置成适应壳体沿着主轴线的尺寸变化。

公开(公告)号：US20080283420A1

公开(公告)日：2008-11-20

申请号：US12066703

申请日：2006-09-14

Applicant: Lars Stenmark

Inventor： Lars Stenmark

IPC: F17C11/00 ,  F17C1/00

CPC classification number: F17C11/00 ,  F17C11/005 ,  F17C2201/0128 ,  F17C2201/0147 ,  F17C2201/0157 ,  F17C2250/043 ,  Y02E60/321

Abstract: A gas storage system (1) comprises a tank (10), having a tank gas outlet (28), and a multitude of gas emitting entities (20) encapsulated by the tank (10). The gas emitting entities (20) are arranged for providing a gas volume, which when released from said gas emitting entities, is considerably larger than a volume of the gas emitting entities (20) themselves. The gas emitting entities (20) are freely contained in the tank (10), i.e. there are no gas conduits or electrical connections to the tank (10). The tank (10) has a sealable opening (18) suitable for removal or insertion of the gas emitting entities (20) and the gas emitting entities (20) have a respective gas release device, which is operable as a response on a stimulation signal. A volume (14) surrounding the gas emitting entities (20) inside the tank (10) is the sole fluid connection between an opening of the gas release device and the tank gas outlet (28). Methods for storing and releasing gas are also presented.

Abstract translation: 气体储存系统（1）包括具有罐气体出口（28）的罐（10）和由罐（10）封装的多个气体发射实体（20）。 气体发射实体（20）被布置成提供气体体积，当从所述气体发射实体释放时，气体体积显着大于气体发射实体（20）本身的体积。 气体发射实体（20）自由地容纳在罐（10）中，即没有气体导管或与罐（10）的电连接。 罐（10）具有适合于移除或插入气体发射实体（20）的可密封开口（18），并且气体发射实体（20）具有相应的气体释放装置，其可用作对刺激信号的响应 。 围绕罐（10）内的气体发射实体（20）的容积（14）是气体释放装置的开口和罐气体出口（28）之间的唯一流体连接。 还介绍了储存和释放气体的方法。

公开(公告)号：US20110174744A1

公开(公告)日：2011-07-21

申请号：US12973334

申请日：2010-12-20

Applicant: Lars Stenmark ,  Anders Gidner ,  Kim Carlsson ,  Gert Wass

Inventor： Lars Stenmark ,  Anders Gidner ,  Kim Carlsson ,  Gert Wass

IPC: C02F11/06

CPC classification number: B01J19/242 ,  B01J3/008 ,  B01J19/24 ,  B01J19/2415 ,  B01J2219/00006 ,  B01J2219/0004 ,  B01J2219/00051 ,  B01J2219/00074 ,  B01J2219/00164 ,  B01J2219/00177 ,  B01J2219/00247 ,  B01J2219/182 ,  B01J2219/185 ,  C02F11/086 ,  Y02P20/544

Abstract: A reactor for supercritical water oxidation includes an essentially vertical reactor section and an essentially non-vertical reactor section. The vertical reactor section has a cross-sectional area which is substantially larger than the cross-sectional area of the non-vertical reactor section. The vertical reactor section has an inlet in an upper portion thereof for receiving a flow containing organic material and water, and an outlet in a lower portion thereof for outputting the flow. Both the vertical and the non-vertical reactor sections are configured to oxidize organic material in the flow through supercritical water oxidation.

Abstract translation: 用于超临界水氧化的反应器包括基本上垂直的反应器部分和基本上非垂直的反应器部分。 垂直反应器部分具有基本上大于非垂直反应器部分的横截面面积的横截面面积。 垂直反应器部分在其上部具有用于接收含有机材料和水的流动的入口，以及用于输出流量的下部的出口。 垂直和非垂直反应器部分均被配置为通过超临界水氧化来氧化流动中的有机材料。

公开(公告)号：US20090040007A1

公开(公告)日：2009-02-12

申请号：US12087724

申请日：2007-01-18

Applicant: Lars Stenmark

Inventor： Lars Stenmark

IPC: H01H37/36

CPC classification number: H01H37/36 ,  H01H37/46 ,  H01H2037/008

Abstract: The present invention is a thermally controlled switch with high thermal or electrical conductivity. Microsystems Technology manufacturing methods are fundamental for the switch that comprises a sealed cavity formed within a stack of bonded wafers, wherein the upper wafer comprises a membrane assembly adapted to be arranged with a gap to a receiving structure. A thermal actuator material, which preferably is a phase change material, e.g. paraffin, adapted to change volume with temperature, fills a portion of the cavity. A conductor material, providing a high conductivity transfer structure between the lower wafer and the rigid part of the membrane assembly, fills another portion of the cavity. Upon a temperature change, the membrane assembly is displaced and bridges the gap, providing a high conductivity contact from the lower wafer to the receiving structure.

Abstract translation: 本发明是具有高导热性或导热性的热控开关。 微系统技术制造方法是开关的基础，该开关包括形成在结合晶片的叠层内的密封空腔，其中上晶片包括适于与接收结构间隔设置的膜组件。 热致动器材料，其优选是相变材料，例如。 石蜡，适于随温度改变体积，填充腔的一部分。 在下部晶片和膜组件的刚性部分之间提供高电导率转移结构的导体材料填充空腔的另一部分。 在温度变化时，膜组件移位并桥接间隙，提供从下晶片到接收结构的高导电性接触。

公开(公告)号：US07122167B2

公开(公告)日：2006-10-17

申请号：US10258952

申请日：2001-04-10

Applicant: Simon Collard ,  Anders Gidner ,  Brian Harrison ,  Lars Stenmark

Inventor： Simon Collard ,  Anders Gidner ,  Brian Harrison ,  Lars Stenmark

IPC: C01G55/00 ,  C02F1/72

CPC classification number: C22B11/048 ,  B01J3/008 ,  B01J3/042 ,  B01J19/2415 ,  B01J2219/00033 ,  B01J2219/00155 ,  B01J2219/00164 ,  B01J2219/182 ,  C02F1/72 ,  C22B11/042 ,  Y02P10/214 ,  Y02P20/544 ,  Y10S210/912

Abstract: A supercritical oxidation process carried out in water is capable of oxidizing “organics” in precious metal organic compositions such as heterogeneous (Pt/C) or homogeneous precious metal catalysts and producing a precious metal oxide with few by-products and low losses of precious metal.

Abstract translation: 在水中进行的超临界氧化过程能够氧化贵金属有机组合物如异质（Pt / C）或均匀的贵金属催化剂中的“有机物”，并且生成贵金属氧化物，几乎没有副产物和低损耗的贵金属 。