序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
1 | 加强型定向钻井组件及其形成方法 | CN201280066601.1 | 2012-11-09 | CN104080996A | 2014-10-01 | H·阿克巴里; G·约内斯 |
提供加强型定向钻井组件及其形成方法。加强材料可以被结合于定向钻井组件中的弹性层和/或聚合物基复合材料中,以提高定向钻井组件中的动力部分的耐久性和性能。在定向钻井组件中引入加强材料可提供检测动力部分的状态、并在检测到动力部分的状态时从井下发送信号的方法。引入加强材料还可提供收集操作状态数据并发送至地面或随钻测量(MWD)/随钻测井(LWD)系统的方法,所述操作状态数据包括:压力、温度、扭矩、每分钟转数(RPM)、应力水平、冲击、振动、井下钻压和/或等效循环密度。加强材料能够通过自身或结合传感器来收集数据。 | ||||||
2 | 具有深拉伸的钢板罐的叶片泵 | CN200480014740.5 | 2004-05-15 | CN100408858C | 2008-08-06 | 海科·舒尔茨-安德烈斯 |
泵、例如用于输送内燃机的润滑油,尤其是多行程的叶片泵,在该泵中,旋转组件具有:一个转子(7),它具有多个至少可径向运动的叶片(3);一个行程轮廓,所述叶片(3)以其叶片顶部沿着该行程轮廓密封地滑动;及两个轴向的侧面封盖、如侧板或壳体壁;其中该行程轮廓及一个第一轴向侧板由一个钢板罐构造出。 | ||||||
3 | 具有深拉伸的钢板罐的叶片泵 | CN200480014740.5 | 2004-05-15 | CN1795333A | 2006-06-28 | 海科·舒尔茨-安德烈斯 |
泵、例如用于输送内燃机的润滑油,尤其是多行程的叶片泵,在该泵中,旋转组件具有:一个转子(7),它具有多个至少可径向运动的叶片(3);一个行程轮廓,所述叶片(3)以其叶片顶部沿着该行程轮廓密封地滑动;及两个轴向的侧面封盖、如侧板或壳体壁;其中该行程轮廓及一个第一轴向侧板由一个钢板罐构造出。 | ||||||
4 | 车辆制动设备的块形泵壳体和用于制造该块形泵壳体的方法 | CN201180057824.7 | 2011-10-14 | CN103228512A | 2013-07-31 | W·弗勒德尔; M·迈尔; A·韦 |
本发明涉及一种车辆制动设备的块形泵壳体(24),其带有被加工到完工尺寸的上侧面(63)和被加工到完工尺寸的下侧面(79),所述上侧面(63)和下侧面(79)的完工尺寸借助于无切削的成型法(82)由毛坯(42)制造出。 | ||||||
5 | 旋转活塞机械 | CN200780016905.6 | 2007-05-10 | CN101443554B | 2013-03-27 | 费利克斯·阿诺尔德 |
一种电驱动的旋转活塞机械,其作为旋转活塞泵或者旋转活塞压缩机工作,其具有泵头(3)和基部壳体(1),该基部壳体(1)容纳电线圈(2),其中,泵工作空间优选通过转子(15、17)的长短辐旋轮线咬合部来限定。根据本发明通常可相对廉价地制造的泵头(3)被构造为可抛性部件,并且因此具有对于昂贵的基部壳体(1)的快速释放连接部(7、10、11、12、14)。 | ||||||
6 | 旋转活塞机械 | CN200780016905.6 | 2007-05-10 | CN101443554A | 2009-05-27 | 费利克斯·阿诺尔德 |
建议一种电驱动的旋转活塞机械,其作为旋转活塞泵或者旋转活塞压缩机工作,其具有泵头(3)和基部壳体(1),该基部壳体(1)容纳电线圈(2),其中,泵工作空间优选通过转子(15、17)的长短辐旋轮线咬合部来限定。根据本发明通常可相对廉价地制造的泵头(3)被构造为可抛性部件,并且因此具有对于昂贵的基部壳体(1)的快速释放连接部(7、10、11、12、14)。 | ||||||
7 | 用于压缩机的腔体及使用该腔体的压缩机 | CN02830150.1 | 2002-12-20 | CN1720395A | 2006-01-11 | 河淙勋; 河三铁; 李沅学; 李尚旭 |
提供一种用于压缩机的腔体(10),其中至少一个部分具有多层结构(11),并且具有多层结构的片紧紧地连接,从而通过相互摩擦力降低产生的噪音和振动。在压缩机操作时,由于摩擦,震动能被转变成热能,并通过腔体(10)传送到外面。因此,压缩机操作时产生的噪音和振动可被大大地降低。 | ||||||
8 | Compressors including polymeric components | US13826831 | 2013-03-14 | US09347441B2 | 2016-05-24 | Brian Jason Rice; Marcos Fernando Borges; Andrew May; Donald W. DeMello; Haralur Gurulingamurthy; Shawn William Lee; Ernest Caldwell; Walter Thompson |
Improvements in compressor manufacture are achieved by utilizing polymeric components which retain at least 90% of their dimensions after being exposed to a mixture of refrigerants and/or lubricants for 30 days at 60° C. Polymeric materials include (i) polyetherimides, (ii) polyphenylene sulfides, (iii) polyketones, (iv) polysulfones, (v) liquid crystal polymers, and (vi) combinations thereof. Metal coatings on the polymers are the preferred embodiments for housings. | ||||||
9 | Pump Housing, in Block Form, of a Vehicle Brake System, and Method for Producing the Same | US14958707 | 2015-12-03 | US20160084261A1 | 2016-03-24 | Wolfgang Frodl; Matthias Mayr; Andreas Weh |
In a pump housing, in block form, of a vehicle brake system, having a top side which is manufactured to final dimensions and a bottom side which is manufactured to final dimensions, the final dimensions of the top side and of the bottom side are obtained by means of a non-cutting deformation process starting from a blank. | ||||||
10 | COMPRESSORS INCLUDING POLYMERIC COMPONENTS | US13826831 | 2013-03-14 | US20140010679A1 | 2014-01-09 | Brian Rice; Marcos Borges; Andrew May; Donald W. DeMello; Gurulingamurthy Haralur; Shawn Lee; Ernest Caldwell |
Improvements in compressor manufacture are achieved by utilizing polymeric components which retain at least 90% of their dimensions after being exposed to a mixture of refrigerants and/or lubricants for 30 days at 60° C. Polymeric materials include (i) polyetherimides, (ii) polyphenylene sulfides, (iii) polyketones, (iv) polysulfones, (v) liquid crystal polymers, and (vi) combinations thereof. Metal coatings on the polymers are the preferred embodiments for housings. | ||||||
11 | Vane-cell pump provided with a deep-drawn metal-sheet pot | US10557513 | 2004-05-15 | US20070148011A1 | 2007-06-28 | Heiko Schulz-Andres |
A pump, for instance for conveying lubricating oil to an internal combustion engine, in particular to multi-stroke vane-cell pump in which a rotatable group comprises a rotor whose vanes are movable at least in a radial direction, a stroke profile, vane heads tightly sliding along said profile and two lateral axial lids in the form of lateral plates or casing walls, the stroke profile and the first axial lateral plate being embodied in the form of a metal sheet pot. | ||||||
12 | REINFORCED DIRECTIONAL DRILLING ASSEMBLIES AND METHODS OF FORMING SAME | US14975684 | 2015-12-18 | US20160108676A1 | 2016-04-21 | Hossein Akbari; Geraint Jones |
Reinforced directional drilling assemblies and methods of forming reinforced directional drilling assemblies are provided. Strengthening materials may be incorporated into a resilient layer and/or a polymer-based composite material within a directional drilling assembly to improve the durability and performance of a power section within the directional drilling assembly. Inclusion of strengthening materials within a directional drilling assembly may provide a method to detect the status of a power section and send a signal from downhole upon detecting status of the power section. Inclusion of strengthening materials also may provide a method to collect data about operating conditions, including pressure, temperature, torque, RPM, stress level, shock, vibration, downhole weight on bit, and/or equivalent circulating density to send to the surface or to MWD/LWD systems. The strengthening materials may collect data by themselves or in conjunction with a sensor. | ||||||
13 | Controlled thickness resilient material lined stator and method of forming | US12774097 | 2010-05-05 | US09163629B2 | 2015-10-20 | Lawrence Lee; Michael Shepherd |
The present invention relates to a resilient material lined stator and method of forming. A method of forming a resilient material lined stator can include disposing a resilient material tube 400 with a profiled helical inner surface 401 into the bore of a body 420. A cast material 410 can be disposed therebetween. The cast material 410 can bond to the body 420 to form a resilient material lined stator or the body 420 can be removed. The cast material 310 can include a conduit 312 or conductor 314 extending therethrough. The cast material 310 can include a pathway 316 formed therethrough. The resilient material can be an elastomer. | ||||||
14 | Stator/rotor assemblies having enhanced performance | US12876515 | 2010-09-07 | US08734141B2 | 2014-05-27 | Jeremy B. Slay; John Snyder; Victor Gawski; Winston J. Webber |
A stator/rotor assembly includes at least one extruded preform bonded to a stator housing and/or a rotor mandrel. A method of constructing a stator/rotor assembly includes extruding at least one preform, and bonding the preform to a stator housing and/or a rotor mandrel. A method of constructing a stator includes applying multiple polymer strips to a bladder; and bonding the polymer strips to a stator housing while compressing the polymer strips between the bladder and the stator housing, without injection molding. A method of constructing a rotor includes applying multiple polymer strips to a rotor mandrel, and bonding the polymer strips to the rotor mandrel while compressing the polymer strips between a bladder and the rotor mandrel, without injection molding. | ||||||
15 | Rotary piston machine | US12227044 | 2007-05-10 | US08360748B2 | 2013-01-29 | Felix Arnold |
An electrically driven rotary piston machine which operates as a rotary piston pump or rotary piston compressor wherein the rotary piston machine has a basic housing, which holds an electrical coil and pump head, wherein the pump working space is preferably bounded by a trochoid toothing of the rotors. The pump head which can usually be manufactured relatively economically is embodied as a disposable part and therefore has a quick-action connection with the more complex basic housing. | ||||||
16 | CONTROLLED THICKNESS RESILIENT MATERIAL LINED STATOR AND METHOD OF FORMING | US12774097 | 2010-05-05 | US20110271527A1 | 2011-11-10 | Lawrence Lee; Michael Shepherd |
The present invention relates to a resilient material lined stator and method of forming. A method of forming a resilient material lined stator can include disposing a resilient material tube 400 with a profiled helical inner surface 401 into the bore of a body 420. A cast material 410 can be disposed therebetween. The cast material 410 can bond to the body 420 to form a resilient material lined stator or the body 420 can be removed. The cast material 310 can include a conduit 312 or conductor 314 extending therethrough. The cast material 310 can include a pathway 316 formed therethrough. The resilient material can be an elastomer. | ||||||
17 | Rotary Piston Machine | US12227044 | 2007-05-10 | US20100034680A1 | 2010-02-11 | Felix Arnold |
An electrically driven rotary piston machine which operates as a rotary piston pump or rotary piston compressor wherein the rotary piston machine has a basic housing, which holds an electrical coil and pump head, wherein the pump working space is preferably bounded by a trochoid toothing of the rotors. The pump head which can usually be manufactured relatively economically is embodied as a disposable part and therefore has a quick-action connection with the more complex basic housing. | ||||||
18 | Block-shaped pump housing and a method of manufacturing the same vehicle brake system | JP2013541262 | 2011-10-14 | JP2013544211A | 2013-12-12 | フロードル,ヴォルフガング; マイヤー,マティアス; ヴェー,アンドレアス |
最終寸法に仕上げられた上側(63)および最終寸法に仕上げられた下側(79)を有する、車両ブレーキ装置のブロック形状ポンプ・ハウジング(24)において、上側(63)および下側(79)の最終寸法は、切削によらない成形法(82)によってブランク(42)から形成される。
【選択図】図8 |
||||||
19 | With a deep-drawn pot-shaped sheet metal vane pump | JP2006529599 | 2004-05-15 | JP2007500309A | 2007-01-11 | シュルツ−アンドレス ハイコ |
例えば内燃機関から潤滑油を搬送するためのポンプ、殊に多行程式のベーンポンプであって、少なくとも半径方向に可動なベーン(3)を備えたロータ(7)と、行程輪郭と、2つの軸方向の側方カバーとしてのサイドプレート又はケーシング壁とを有する回転構造群が設けられており、前記行程輪郭に沿ってベーン(3)のベーンヘッドが気密にガイドされるようになっている形式のものにおいて、行程輪郭と第1の軸方向のサイドプレート又はケーシング壁とがポット形金属薄板によって形成されている。 | ||||||
20 | 圧縮機能部材及びその製造方法 | JP2012089181 | 2012-04-10 | JP6013755B2 | 2016-10-25 | 平渡 末二; 小和田 芳夫 |