公开(公告)号：US20190111300A1

公开(公告)日：2019-04-18

申请号：US16090338

申请日：2017-03-31

Applicant: INVENTUS ENGINEERING GMBH

Inventor： STEFAN BATTLOGG

IPC: A63B21/008 ,  A63B22/00 ,  A63B22/02 ,  A63B22/06 ,  A63B24/00

Abstract: Training equipment is configured for targeted muscle actuation. The training equipment contains a muscle-powered actuating element and a damping system having two components that can move in relation to one another. One of the components is operatively connected to the actuating element, such that a movement of the actuating element can be damped. A field-sensitive rheological medium and a field generation system are associated with the damping system, in order to generate and control the field strength. A damping characteristic can be influenced by the field generation system. A control system is suited and configured to control the field generation system in a targeted manner in accordance with a training parameter, such that the movement of the actuating element can be damped taking into account the training parameter.

公开(公告)号：US20180298976A1

公开(公告)日：2018-10-18

申请号：US15767153

申请日：2016-10-16

Applicant: INVENTUS ENGINEERING GMBH

Inventor： STEFAN BATTLOGG

IPC: F16F9/53

Abstract: A rotary damper has a displacer device with a damper shaft and displacer components engaging into one another. A rotational movement of the damper shaft can be damped. The displacer device contains a magnetorheological fluid as a working fluid. A magnetic field of a magnetic field source having an electric coil can be controlled by way of an associated control device. An end-side axial gap is formed between the housing and the displacer device. An essential part of the magnetic field of the magnetic field source passes through the axial gap between the housing and the displacer components. The magnetorheological fluid is subjected to the magnetic field in order to adjust a damping of the rotational movement of the damper shaft. The magnetic field also effects a seal of the end-side axial gap.

公开(公告)号：US20180209195A1

公开(公告)日：2018-07-26

申请号：US15746502

申请日：2016-07-21

Applicant: INVENTUS ENGINEERING GMBH

Inventor： STEFAN BATTLOGG ,  MARKUS MAYER

IPC: E05F5/00 ,  B60J5/04 ,  F16F9/53 ,  F16F9/20

CPC classification number: E05F15/619 ,  B60J5/047 ,  E05C17/003 ,  E05C17/006 ,  E05C17/22 ,  E05F5/00 ,  E05F5/025 ,  E05F15/00 ,  E05Y2201/21 ,  E05Y2201/218 ,  E05Y2201/232 ,  E05Y2201/246 ,  E05Y2201/254 ,  E05Y2201/256 ,  E05Y2201/264 ,  E05Y2201/434 ,  E05Y2201/46 ,  E05Y2201/462 ,  E05Y2400/20 ,  E05Y2400/21 ,  E05Y2400/44 ,  E05Y2400/45 ,  E05Y2400/53 ,  E05Y2400/54 ,  E05Y2900/531 ,  F16D57/002 ,  F16D57/06 ,  F16D71/00 ,  F16F9/06 ,  F16F9/063 ,  F16F9/067 ,  F16F9/187 ,  F16F9/20 ,  F16F9/3292 ,  F16F9/535 ,  F16F9/537 ,  F16F9/56 ,  F16F2222/06 ,  F16F2222/12 ,  F16F2224/045 ,  F16F2228/066 ,  F16F2230/0005 ,  F16F2230/0088 ,  F16F2230/18

Abstract: A door component has a controllable damping device containing a magnetorheological fluid as a working fluid. Two connection units can move relative to one another. One of the two connection units can be connected to a support structure and the other of the two connection units can be connected to a moveable door unit of a vehicle in order to damp a movement of the door unit between a closed position and an open position under control of a control device. The damping device has an electrically adjustable magnetorheological damping valve which is current-less in its adjusted state. A damping property of the damping device is continuously adjusted as needed via an electrical adjustment of the damping valve.

公开(公告)号：US20170045958A1

公开(公告)日：2017-02-16

申请号：US15200945

申请日：2016-07-01

Applicant: INVENTUS ENGINEERING GMBH

Inventor： STEFAN BATTLOGG

IPC: G06F3/0362 ,  G05G1/08 ,  F16D57/00 ,  G04G21/08 ,  G06F1/16 ,  G06F3/0482 ,  G06F3/0487 ,  G05G5/03 ,  G06F3/038

CPC classification number: G06F3/0362 ,  F16D37/02 ,  F16D57/002 ,  F16D2037/002 ,  F16D2300/0214 ,  F16D2300/18 ,  G04G21/08 ,  G05G1/08 ,  G05G5/03 ,  G06F1/163 ,  G06F1/169 ,  G06F3/038 ,  G06F3/0482 ,  G06F3/0487

Abstract: A minicomputer has a processor and a display unit and a communication unit and a haptic operating device. The haptic operating device has a rotatable rotating unit with a rotational resistance which can be changed by way of a control device. Selectable menu items are displayed on a display unit and a menu item is selected by rotating the rotating unit. A rotational resistance of the rotating unit is dynamically changed during a rotation of the rotating unit and the rotating unit is latched at a plurality of haptically perceptible latching points during the rotation of the rotating unit.

Abstract translation: 小型计算机具有处理器和显示单元以及通信单元和触觉操作装置。 触觉操作装置具有可旋转的旋转单元，其具有能够通过控制装置改变的旋转阻力。 可选择的菜单项显示在显示单元上，旋转旋转单元选择菜单项。 在旋转单元的旋转期间，旋转单元的旋转阻力被动态地改变，并且旋转单元在旋转单元的旋转期间被锁定在多个隐藏的可感知的闭锁点。

公开(公告)号：US20170002890A1

公开(公告)日：2017-01-05

申请号：US15125646

申请日：2015-03-13

Applicant: INVENTUS ENGINEERING GMBH

Inventor： STEFAN BATTLOGG ,  MARKUS MAYER

IPC: F16F9/53 ,  F16F7/12 ,  F16F15/00

CPC classification number: F16F9/535 ,  B60N2/24 ,  B60N2/4242 ,  B60N2/42709 ,  B60N2/50 ,  F16F7/127 ,  F16F13/007 ,  F16F15/002

Abstract: An energy absorber is controlled in an overload event to absorb potentially damaging energy. The energy absorber acts between a receiving unit for receiving objects for transporting and a carrier device that connects to a transporter. An absorber force can be influenced by an electrically controlled magnetic field unit. Measurement values of loads acting on the loading unit are captured sequentially and an overload event is determined if a measure derived from the measurement values exceeds a predetermined threshold value. After the onset of an overload event a prognosticated load curve of the loading unit is assessed from a multitude of measurement values captured from the onset of the overload event. A planned power flow curve for the magnetic field unit is determined and the load curve is damped time-dependent so that a planned load curve ensues which remains beneath a predetermined load limit.

Abstract translation: 能量吸收器被控制在过载事件中以吸收潜在的有害能量。 能量吸收器作用在用于接收运输物体的接收单元和连接到运输机的载体装置之间。 吸收力可以受到电控磁场单元的影响。 如果从测量值导出的测量值超过预定的阈值，则依次捕获作用在加载单元上的负载的测量值，并确定过载事件。 在过载事件发生之后，根据从过载事件开始所捕获的大量测量值来评估装载单元的预测载荷曲线。 确定磁场单元的计划功率流曲线，并且负载曲线被阻尼时间依赖，使得保持在预定负载极限以下的计划负载曲线。

公开(公告)号：US20170002889A1

公开(公告)日：2017-01-05

申请号：US15125664

申请日：2015-03-13

Applicant: INVENTUS ENGINEERING GMBH

Inventor： STEFAN BATTLOGG ,  MARKUS MAYER

IPC: F16F9/53 ,  F16F15/00 ,  F16F7/12 ,  B60N2/42

CPC classification number: F16F9/53 ,  B60N2/24 ,  B60N2/4242 ,  B60N2/42709 ,  B60N2/50 ,  F16F7/127 ,  F16F9/532 ,  F16F9/535 ,  F16F13/007 ,  F16F15/002

Abstract: A method and an assembly for absorbing energy during an overload event. An energy absorber reduces loads on an object being transported on a loading unit during a single overload event, which introduces such a high degree of energy that there is an overwhelming likelihood the object would be damaged without an energy absorber. Measurement values on the current state of the loading unit are sensed. A control device determines an overload event and a damping of the energy absorber is set to a high value after the detection of the overload event. The damping is maintained for a specified prolonged time period and controlled dependent on the measurement values during the overload event to increase the load for objects during the specified time period initially to a specified threshold load and after the specified time dependent on the measurement values detected during the overload event.

Abstract translation: 一种用于在过载事件期间吸收能量的方法和组件。 能量吸收器减少在单个过载事件期间在装载单元上运输的物体上的载荷，其引入如此高的能量，使得物体在没有能量吸收器的情况下将被破坏。 感测加载单元的当前状态的测量值。 控制装置确定过载事件，并且在检测到过载事件之后将能量吸收器的阻尼设置为高值。 阻尼被保持指定的延长的时间段，并且受过载事件期间的测量值的控制，以便在指定的时间段内将对象的负载增加到指定的阈值负载，并且在指定的时间取决于检测到的测量值之后 过载事件。

公开(公告)号：US20150184769A1

公开(公告)日：2015-07-02

申请号：US14656022

申请日：2015-03-12

Applicant: INVENTUS ENGINEERING GMBH

Inventor： STEFAN BATTLOGG ,  JUERGEN POESEL ,  GERNOT ELSENSOHN

IPC: F16K31/08

CPC classification number: F16K31/082 ,  F16F9/537 ,  F16K13/10 ,  F16K31/0675 ,  Y10S137/909 ,  Y10T137/2082

Abstract: A valve for a magnetorheological fluid is formed with a duct through which the magnetorheological fluid can flow and which can be exposed to a variable magnetic field such that the flow resistance of the duct can be set using the magnetic field in the duct. The magnetic field can be lastingly generated using a magnet device that is made at least in part of magnetically hard material. The magnetization of the magnet device can be lastingly modified by a magnetic pulse of a magnetic field generation device in order to lastingly change the magnetic field in the duct and thus the flow resistance of the duct. A valve of the invention requires energy only to change settings while a specific setting can be lastingly maintained without supplying energy.

Abstract translation: 用于磁流变流体的阀形成有磁流变流体可以流过的管道，并且可以暴露于可变磁场，使得管道的流动阻力可以使用管道中的磁场来设定。 可以使用至少部分由磁性材料制成的磁体装置来持续产生磁场。 可以通过磁场产生装置的磁脉冲来持续地改变磁体装置的磁化，以便持续地改变管道中的磁场，从而改变管道的流动阻力。 本发明的阀门只需要能量来改变设置，同时可以在不提供能量的情况下持续维持特定的设定。

公开(公告)号：US20140097593A1

公开(公告)日：2014-04-10

申请号：US13798781

申请日：2013-03-13

Applicant: Inventus Engineering GmbH

Inventor： STEFAN BATTLOGG ,  JUERGEN POESEL ,  GERNOT ELSENSOHN

IPC: F16F9/53 ,  B62K25/04

CPC classification number: F16F9/537 ,  B60R22/28 ,  B60R2022/282 ,  B60R2022/288 ,  B62K25/04 ,  F16F9/535 ,  Y10T137/2082

Abstract: In a movement damping apparatus, a magnetorheological fluid is pressed through a flow path. A device generating a variable magnetic field comprises a core around which a coil is wound as well as pole surfaces in the flow path, the magnetic field acting on the magnetorheological fluid by means of said pole surfaces. The coil is arranged within the flow path along with the core, the axis of the coil extending perpendicular to the direction of flow of the magnetorheological fluid. The flow path has a jacket made of a magnetically conducting material.

Abstract translation: 在运动阻尼装置中，通过流路压入磁流变流体。 产生可变磁场的装置包括卷绕线圈的芯以及流路中的极表面，通过所述极表面作用在磁流变流体上的磁场。 线圈与芯一起设置在流路内，线圈的轴线垂直于磁流变流体的流动方向延伸。 流路具有由导磁材料制成的护套。

公开(公告)号：US20220364407A9

公开(公告)日：2022-11-17

申请号：US16892898

申请日：2020-06-04

Applicant: INVENTUS ENGINEERING GMBH

Inventor： STEFAN BATTLOGG

IPC: E05F15/76 ,  B60R21/013 ,  B60Q9/00 ,  E05F15/611 ,  E05F15/41

Abstract: A method and a device for controlling door movements of a controllable door of a motor vehicle. A control device and a sensor arrangement are assigned to the door and the door has a controllable motion influencing device. A motion of a door wing of the door is controlled and influenced by the motion influencing device to alternate between a closed position and an open position. The motion influencing device includes a driving device with a drive motor. The sensor arrangement includes a current sensor which detects the motor current of the drive motor. While closing the door wing the control device detects an obstacle when the door wing is not yet closed and the power input of the drive motor rises above a predetermined threshold. Then the control device stops the drive motor.

公开(公告)号：US20210270343A1

公开(公告)日：2021-09-02

申请号：US17255164

申请日：2019-07-04

Applicant: INVENTUS ENGINEERING GMBH

Inventor： STEFAN BATTLOGG

IPC: F16F9/53 ,  F16F9/14 ,  B60G17/08 ,  B60G21/055

Abstract: A rotary damper has a housing, a damper shaft rotatably held on the housing, a damper volume accommodated in the housing and which has a magnetorheological fluid as working fluid, and at least one magnetic field source in order to influence a degree of damping of the rotational movement of the damper shaft relative to the housing. A separating unit connected to the damper shaft divides the damper volume. At least one gap portion, which can be influenced by a magnetic field of the magnetic field source, is formed between the separating unit, which is connected to the damper shaft, and the housing. The housing, the separating unit and the magnetic field source are designed such that a flow cross section for the magnetorheological fluid from one side to the other side of the separating unit changes in dependence on a rotational angle.