Abstract: The invention is an actuating drive for deflecting an actuating element using a solid body actuator (2) when an electrical voltage or an alternating magnetic field is applied, to cause a change in length. A housing (1) encloses the solid body actuator to define an interspace (13) in a fluid-tight manner. Furthermore, the solid body actuator includes a hollow duct (6) having one end connected to a first hollow conduit (20) passing through the housing and the other end opening into the interspace (13). The interspace is additionally connected in a fluid-tight manner to a second hollow conduit (21) passing through the housing.

Abstract: An active bearing at least for vibration reduction is described, comprising a) an interface (7) to be fitted to a load (8); b) at least one support element (3) in an operative connection with the interface (7) and a support unit (6); c) at least one linear actuator (5) supported indirectly or directly on the support unit (6); d) a gear unit (4) for the path transmission of an actuating path change originating from the linear actuator (5), said gear unit being in an operative connection with the at least one linear reactor (5); e) at least one decoupling unit (1), which serves for the decoupling of the static load transfer and for transmitting the dynamic load transfer; wherein the at least one linear actuator (5), the gear unit (4) and the at least one decoupling unit (1) are disposed serially.

Abstract: A method for producing a housing structure at least partially enclosing at least one component, wherein the housing structure is produced with a construction process utilizing at least one of repeated layered deposition and solidification of material, which is interrupted at least once before completion of the housing structure, and during at least one interruption at least one component, which is not produced by the construction process, is joined to or disposed in a partially finished housing structure, and the construction process is then continued after the interruption until the housing is completed, wherein at least one of an actuator and sensor comprising at least partially a transformer material selected as the at least one component to be joined to or disposed in the housing structure.

Abstract: An electroactive elastomer converter is described comprising at least one electroactive elastomer layer (3) with a top side and underside and an electrically conductive electrode body (1?) that is two-dimensionally connected to the top side at least in regions. An electrically conductive electrode body (1?) is dimensionally connected in at least two regions to the underside. At least one electrode body (1?) in each case has an electrode surface facing the elastomer layer (3). At least one opening (2) is present to which an a two-dimensional region in which there is no two-dimensional bond between the elastomer layer (3) and the electrode body (1?). A compressible medium is provided in the area of the opening.

Abstract: The invention is an actuator which includes at least one control element which has thermally activatable transducer material and which, in response to the supply or dissipation of energy, changes from a first shape state into a second shape state, and a mechanical energy storage, which is functionally connected to the control element. When the control element is in the second shape state, it exerts a restoring force on the control element which returns the control element to the first shape state. The mechanical energy storage includes an elastomer body, which at least in some regions is in direct physical and thermal contact with the control element. The elastomer body is connected in a spatially fixed manner to the control element in at least two spatially separated joining regions along the control element.

Abstract: The invention relates to a test system for dynamically and/or cyclically load testing a material sample, a component, or an assembly, hereinafter referred to as sample. The test system is provided with a test frame, to which a bearing and a counter bearing are attached. At least one actuator comprising a multifunctional solid state transducer material system is connected to the counter bearing, directly or indirectly, to which, also directly or indirectly, a fastener provides firm fixation of the sample. Likewise, on the bearing side, a fastener firm fixation of the sample such that the at least one actuator is able to introduce dynamic and/or cyclical mechanical loads into the sample, which act along a load path extending lengthwise between the bearing and the counter bearing and through the sample.

Abstract: An activation unit is disclosed having at least one actuator having a variable length disposed around at least one first axis. The activation unit operatively interacts with an activation element mounted so that it can be bi-directionally deflected along a second axis. The front side of the actuator is indirectly or directly engaged with a first piston, which can be deflected along the first axis in a mechanically positively driven manner. The first piston has a front side facing away from the actuator which axially borders at least regions of a transfer medium on one side. The transfer medium is radially surrounded relative to a first axis by a housing radially to the first axis, and axially borders at least regionally a front side of at least one second piston. The at least second piston can be deflected in a mechanically positively driven manner, and engages the activation element directly or indirectly.

Abstract: A device for transmitting or decoupling mechanical vibrations between a first component and a second component with at least one of the first and the second components being free to vibrate in the at least one direction including: a planar coupling element, coupling the first and second components together, having a planar top surface and a planar bottom surface, and having a variably adjustable stiffness extending in the at least one direction; the planar coupling element, having planar dimensions with the planar coupling element being dimensionally stable along the planar dimensions and being elastic in a direction perpendicular to the planar surfaces; the first and second components are rotatable relative to each other about an axis extending in the direction perpendicular to the planar surfaces and in which at least one of the components is free to vibrate for adjusting the stiffness.

Abstract: A shaft arrangement is disclosed for transmitting torques acting around a rotational axis, with a variably adjustable torsional stiffness acting around the rotational axis and a method for varying the torsional stiffness of a shaft arrangement. The invention includes a first shaft section, having at least one torsion element secured thereto which is not damaged by torque and is axially fixed manner, which is mounted to be dimensionally stable transverse to the rotational axis, a second shaft section spaced axially apart from the first shaft section, to which the at least one torsion element is secured which is not rotatable but is axially movable and that a means for operatively interacts or can be made to operatively interact with the second shaft section for axially moving the second shaft section in relation to the first shaft section and in relation to the at least one torsion element.

Abstract: The invention relates to a method for driving a motor vehicle and a drive system for a motor vehicle, solely for electro-motorized forward movement. At least one electrical motor is directly or indirectly connected to a drive shaft of the motor vehicle, which is supplied with electrical energy via an energy storage unit, to which energy is supplied with electrical charge current by a generator, driven by a gas engine. The invention is operated during forward movement of the motor vehicle such that an average power demand, which can be allocated to the electrical motor, equals an average power output, which can be allocated to the gas engine, so that a charge state, which can be allocated to the energy storage unit, does not change or changes solely within a charge state within a tolerable range.

Abstract: A device is disclosed for mechanical vibration decoupling having two bearing ends to which bodies for reciprocally decoupling vibrations are joined which are interconnected by couplings having a variably adjustable stiffness. The couplings comprise at least three spring beam elements each having a spring beam surface from which a normal vector extends and which are each dimensionally stable in a longitudinal direction and are elastical orthogonal to the spring beam surface. The at least three spring beam elements are disposed spatially relative to each other so that normal vectors thereof are each orientated at an angle ? relative to each other with ?=90°±30°.

Abstract: The invention ris an actuating drive for deflecting an actuating element by a solid body actuator (2) which, when an electrical voltage or an alternating magnetic field is applied, experiences a length change. A housing (1) encloses the solid body actuator to define an interspace (13) in a fluid-tight manner. Furthermore, the solid body actuator includes a hollow duct (6) having one end connected to a first hollow conduit (20) passing through the housing and the other end opening into the interspace. The interspace is additionally connected in a fluid-tight manner to a second hollow conduit (21) passing through the housing.

Abstract: The invention relates to a test system for dynamically and/or cyclically load testing a material sample, a component, or an assembly, hereinafter referred to as sample. The test system is provided with a test frame, to which a bearing and a counter bearing are attached. At least one actuator comprising a multifunctional solid state transducer material system is connected to the counter bearing, directly or indirectly, to which, also directly or indirectly, a fastener provides firm fixation of the sample. Likewise, on the bearing side, a fastener firm fixation of the sample such that the at least one actuator is able to introduce dynamic and/or cyclical mechanical loads into the sample, which act along a load path extending lengthwise between the bearing and the counter bearing and through the sample.

Abstract: A shaft arrangement is disclosed for transmitting torques acting around a rotational axis, with a variably adjustable torsional stiffness acting around the rotational axis and a method for varying the torsional stiffness of a shaft arrangement. The invention includes a first shaft section, having at least one torsion element secured thereto which is not damaged by torque and is axially fixed manner, which is mounted to be dimensionally stable transverse to the rotational axis, a second shaft section spaced axially apart from the first shaft section, to which the at least one torsion element is secured which is not rotatable but is axially movable and that a means for operatively interacts or can be made to operatively interact with the second shaft section for axially moving the second shaft section in relation to the first shaft section and in relation to the at least one torsion element.

Abstract: The invention is an actuator which includes at least one control element which has thermally activatable transducer material and which, in response to the supply or dissipation of energy, changes from a first shape state into a second shape state, and a mechanical energy store, which is functionally connected to the control element and, when the control element is in the second shape state, exerts on the control element a restoring force which returns the control element to the first shape state. The mechanical energy store includes an elastomer body, which at least in some regions is in direct physical and thermal contact with the control element, the elastomer body is connected in a spatially fixed manner to the control element in at least two spatially separated joining regions along the control element.

Abstract: A method for producing a housing structure at least partially enclosing at least one component, wherein the housing structure is produced with a construction process utilizing at least one of repeated layered deposition and solidification of material, which is interrupted at least once before completion of the housing structure, and during at least one interruption at least one component, which is not produced by the construction process, is joined to or disposed in a partially finished housing structure, and the construction process is then continued after the interruption until the housing is completed, wherein at least one of an actuator and sensor comprising at least partially a transformer material selected as the at least one component to be joined to or disposed in the housing structure.

Abstract: A device is disclosed for mechanical vibration decoupling having two bearing ends to which bodies for reciprocally decoupling vibrations are joined which are interconnected by couplings having a variably adjustable stiffness. The couplings comprise at least three spring beam elements each having a spring beam surface from which a normal vector extends and which are each dimensionally stable in a longitudinal direction and are elastical orthogonal to the spring beam surface. The at least three spring beam elements are disposed spatially relative to each other so that normal vectors thereof are each orientated at an angle ? relative to each other with ?=90°±30°.

Abstract: The invention is a device for transmitting or decoupling mechanical vibrations, comprising a first component and a second component, which are connected to each other by means of a coupling element that has a variably adjustable stiffness in at least one direction of action in which at least one component is supported in a vibrating manner With the coupling element by a planar element having a top side and a bottom side and extending in a longitudinal direction with the planar element being dimensionally stable in the longitudinal direction and elastic lateral to the longitudinal direction.

Abstract: An electroactive elastomer converter is described comprising at least one electroactive elastomer layer (3) with a top side and underside and an electrically conductive electrode body (1?) that is two-dimensionally connected to the top side at least in regions. An electrically conductive electrode body (1?) is dimensionally connected in at least two regions to the underside. At least one electrode body (1?) in each case has an electrode surface facing the elastomer layer (3). At least one opening (2) is present to which an a two-dimensional region in which there is no two-dimensional bond between the elastomer layer (3) and the electrode body (1?). A compressible medium is provided in the area of the opening.

Abstract: An activation unit is disclosed having at least one actuator having a variable length disposed around at least one first axis. The activation unit operatively interacts with an activation element mounted so that it can be bi-directionally deflected along a second axis. The front side of the actuator is indirectly or directly engaged with a first piston, which can be deflected along the first axis in a mechanically positively driven manner. The first piston has a front side facing away from the actuator which axially borders at least regions of a transfer medium on one side. The transfer medium is radially surrounded relative to a first axis by a housing radially to the first axis, and axially borders at least regionally a front side of at least one second piston. The at least second piston can be deflected in a mechanically positively driven manner, and engages the activation element directly or indirectly.