Abstract: Disclosed is a resilient fastening arrangement (200) for construction of a vibration damping assembly (100) comprising at least a first structure (110) and a second structure (120). The resilient fastening arrangement (200) comprises a first part (210) for fixation to the first structure (110) of the assembly (100) and a second part (220) for engagement with the second structure (120) of the assembly (100). The arrangement (200) further comprise a third part (230) arranged to resiliently connect the first part (210) to the second part (220) along an arrangement axis (D). The third part (230) comprises a resilient member arranged to at least partially extend within a hole (125) of the first structure (110) and/or of the second structure (120) of the assembly (100). Further resilient fastening arrangement (200), vibration damping assemblies (100) and a method for constructing a vibration damping assembly (100) are disclosed.

Abstract: The present invention discloses a dampening assembly (10) for reducing vibrations, sound or noise, comprising: a first structure, a second structure and a resilient attachment member attaching the first structure to the second structure.

Abstract: An attachment arrangement (3, 53, 73, 83, 93) for connection to a first construction (1) and in such a connected state be able to hold a second construction (2) where the arrangement has an axial longitudinal extension and shows a first partial portion (3a, 53a, 73a, 83a, 93a), interactable with the first construction (1), and a second partial portion (3b, 53b, 73b, 83b, 93b), interactable with the second partial portion, said partial portions (3a, 53a, 73a, 83a, 93a, 3b, 53b, 73b, 83b, 93b) being connected to each other only by an action means (4, 54, 74, 84, 94), e.g.

Abstract: The present invention encompasses an arrangement for resilient fixing and where the arrangement (3) is intended to be able to be fixedly anchored in a first, for instance a fixed and bearing, construction (1) and in such a fixedly anchored position be able to retain a second, for instance a laterally related and/or sub-oriented, construction (2), where the arrangement (3) displaying a first part portion (3a) for instance provided with a helical thread, cooperable with the first construction (1) and a second part portion (3b) for instance provided with a helical thread, cooperable with the second construction (2). The first part portion (3a) and the second part portion (3b) are, via a rod-shaped device (3c), to be coordinated with one another, while spring means (4), for instance a helical spring unit (4a) is to be adapted, by tractive or compressive force to resiliently retain said second construction (2) at an adapted distance (“D”) from said first construction (1).