会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Area of intersection between a high-pressure chamber and a high-pressure duct
    • 高压室和高压管道之间的交叉区域
    • US08245696B2
    • 2012-08-21
    • US12596589
    • 2008-04-07
    • Dominikus HofmannNadja EisenmengerHans-Christoph Magel
    • Dominikus HofmannNadja EisenmengerHans-Christoph Magel
    • F02M55/02F16L39/00
    • F02M61/16F02M55/008F02M61/162F02M2200/03
    • The invention relates to an area of intersection between a high-pressure chamber and a high-pressure duct. To increase the strength in the area of intersection, it is possible to round the area of intersection. The area of intersection includes at least one planar area or an area that is curved markedly less than the remaining area of intersection. The planar area may also be embodied as only nearly planar. The high-pressure chamber and the high-pressure duct are also called functional chambers. By means of the planar or nearly planar area, an intersection geometry is created, in which tensile stresses of the functional chambers that occur upon subjection to pressure are not superimposed directly and add up as they do in conventional intersection geometries. By means of the planar area in the area of intersection, it is attained that in the intersection geometry of the invention, under pressure, local pressure stresses or markedly reduced tensile stresses occur in an inner wall of the high-pressure chamber and are then superimposed with the tensile stresses in an inner wall of the high-pressure duct. Since with the intersection geometry of the invention, a tensile stress has only a reduced tensile stress or in the best case a pressure stress superimposed on it, the total is less and hence the maximum stress that occurs is reduced markedly.
    • 本发明涉及高压室和高压管道之间的交叉区域。 为了增加交叉点的强度,可以绕交叉点的区域。 交叉区域包括至少一个平面区域或显着小于其余交叉区域的弯曲区域。 平面区域也可以被实现为仅几乎平面的。 高压室和高压管也被称为功能室。 通过平面或近平面区域,产生交叉几何,其中在压力下发生的功能室的拉伸应力不直接叠加并与常规交叉几何形状相加。 通过交叉区域中的平面区域,可以确认在本发明的交叉几何中,在压力下,局部压力应力或显着降低的拉应力发生在高压室的内壁中,然后叠加 在高压管道的内壁处具有拉伸应力。 由于采用本发明的交叉几何形状,拉伸应力仅具有减小的拉伸应力,或者在最好的情况下叠加在其上的压力应力,总和较小,因此发生的最大应力显着降低。
    • 6. 发明授权
    • Control valve for a fuel injector that contains a pressure intensifier
    • 用于包含增压器的燃料喷射器的控制阀
    • US07278398B2
    • 2007-10-09
    • US10566753
    • 2004-06-22
    • Hans-Christoph Magel
    • Hans-Christoph Magel
    • F02M37/04
    • F02M57/026F02M47/027F02M57/025F02M59/105F02M63/0005F02M63/0007
    • A servo valve for actuating a pressure booster of a fuel injector, the pressure booster having a work chamber separated by a booster piston from a differential pressure chamber and the pressure change in the differential pressure chamber of the pressure booster is effected via the servo valve, via switching valve. The control chamber of the servo valve can both be made to communicate with a high-pressure source and pressure-relieved into a low-pressure-side return, and for generating a fast closing motion at the valve piston, a pressure shoulder acting in the closing direction of the valve piston is embodied between the control chamber and the hydraulic chamber, and control edges without a common opening phase are embodied on the valve piston.
    • 一种用于致动燃料喷射器的增压器的伺服阀,所述增压器具有由增压器活塞与差压室隔开的工作室以及增压器的差压室中的压力变化通过伺服阀进行, 通过开关阀。 伺服阀的控制室都可以与高压源连通,并被压力释放到低压侧回流中,并且用于在阀活塞处产生快速关闭运动, 阀活塞的关闭方向体现在控制室和液压室之间,而没有公共开启相位的控制边缘体现在阀活塞上。
    • 7. 发明申请
    • Common Rail Injector
    • 共轨喷油器
    • US20070221177A1
    • 2007-09-27
    • US10593956
    • 2005-01-19
    • Hans-Christoph Magel
    • Hans-Christoph Magel
    • F02M51/00
    • F02M47/027F02M47/00F02M63/0007F02M63/0026F02M63/0045F02M2547/006
    • A common rail injector having an injector housing having a fuel supply line which communicates with a central high-pressure fuel source outside the injector housing and with a pressure chamber inside the injector housing, from which pressure chamber, as a function of the position of a 3/2-way control valve, fuel subjected to high pressure is injected. The 3/2 way control valve, includes a valve piston, movable back and forth in the injector housing between a position of repose and an injection position, which piston is coupled hydraulically with a piezoelectric actuator that is subjected to the pressure from the high-pressure fuel source.
    • 具有喷射器壳体的共轨喷射器具有燃料供应管线,燃料供应管线与喷射器壳体外部的中央高压燃料源连通,并且与喷射器壳体内的压力室连通,作为压力室的位置的函数,压力室 3/2路控制阀,注入高压燃料。 3/2路控制阀包括阀活塞,其可在静止位置和喷射位置之间在喷射器壳体中前后移动,该活塞与压电致动器液压连接,该压电致动器受到来自高压气体的压力, 压力燃料源。
    • 9. 发明申请
    • Fuel injection system
    • 燃油喷射系统
    • US20060090734A1
    • 2006-05-04
    • US11266223
    • 2005-11-04
    • Hans-Christoph Magel
    • Hans-Christoph Magel
    • F02M57/02F02M59/46
    • F02M57/026F02M57/025F02M59/105
    • A fuel injection system for an internal combustion engine including a fuel injector which can be subjected to fuel at high pressure and is actuatable via a metering valve device by which the pressure in a pressure booster control chamber is controllable such that the pressure in a pressure booster pressure chamber, defined by a pressure booster piston, that can be filled with fuel from the high-pressure fuel source via a filling path in which a check valve is disposed and that is in communication with an injection valve member pressure chamber, is increased by the pressure booster piston such that an injection valve member opens for injecting fuel, whereupon fuel is positively displaced out of a damping chamber via a damping path, in which a damping throttle is disposed. To assure stable injection performance, the damping path is embodied such and connected in such a way to the filling path that the fuel positively displaced from the damping chamber via the damping throttle in an injection event reaches the filling path of the pressure booster pressure chamber via the damping path.
    • 一种用于内燃机的燃料喷射系统,其包括燃料喷射器,所述燃料喷射器能够经受高压燃料并可通过计量阀装置致动,通过该计量阀装置可控制增压器控制室中的压力,使得压力增压器 由增压器活塞限定的压力室可以通过其中设置有止回阀并与喷射阀构件压力室连通的填充路径从高压燃料源填充燃料,并被增加, 增压活塞,使得喷射阀构件打开用于喷射燃料,于是燃料经由其中设置有阻尼节流阀的阻尼路径从阻尼室中被正向移位。 为了确保稳定的喷射性能,阻尼路径被实施为并且以这样的方式连接到填充路径,使得在喷射事件中经由阻尼节流阀从阻尼室积极地移动的燃料到达增压器压力室的填充路径经由 阻尼路径。