The invention relates to a method and an apparatus for receiving cylindrical bodies. In the method according to the invention, the receiving utilizes tight, self-restoring pressure elements, in which by adjusting the inflow and/or outflow of compressed air, the motion speed of the cylindrical body is decelerated. The apparatus according to the invention includes a pressure element within the elastic and tight material of which is installed self-restoring porous material. Furthermore, the invention relates to the use of the method and the apparatus for receiving a cylindrical body.

A damper for a storage compartment closure includes a bellows chamber and damper air passage structures each configured to provide an air volume intake during a bellows chamber extension that is less than an air volume expulsion during a bellows chamber compression. One damper air venting structure is a valve having a translatable lid including an aperture defined therethrough. A bellows chamber air pressure differential maintains the translatable lid in a closed configuration during the bellows chamber extension and in an open configuration during the bellows chamber compression. Another damper air venting structure is at least one bellows chamber vent including a cover configured whereby a bellows chamber extension incrementally transitions the cover to a closed configuration.

A sealing apparatus for an air spring device for sealing a primary volume of the air spring device in particular a working volume of the air spring device, with respect to a secondary volume, including a main body, and a sealing element configured on the circumference of the main body, the sealing element configured such that, in a state in which it is mounted in the air spring device, the sealing element is transferred from a sealed position, in which the sealing element seals the primary volume with respect to the secondary volume, into a released position, in which air passes the sealing element, when a pressure difference between the primary volume and the secondary volume, which pressure difference is set with respect to the secondary volume as a negative pressure in the primary volume, exceeds a threshold value.

There is provided an impact diffusing apparatus for diffusing force on an object being impacted, the apparatus having a body intersected by a plane having a first side and a second side opposite the first side. The body has a first collapsible structure on the first side of the plane and a second collapsible structure on the second side of the plane, each collapsible structure having an interior surface and an exterior surface. The interior surfaces of the collapsible structures are shaped to define an interior cavity. The apparatus has air passages communicating between the interior cavity of the collapsible surfaces and an external environment, as well as a mounting structure for mounting the body to the object.

A damper for a storage compartment closure includes a bellows chamber and damper air passage structures each configured to provide an air volume intake during a bellows chamber extension that is less than an air volume expulsion during a bellows chamber compression. One damper air venting structure is a valve having a translatable lid including an aperture defined therethrough. A bellows chamber air pressure differential maintains the translatable lid in a closed configuration during the bellows chamber extension and in an open configuration during the bellows chamber compression. Another damper air venting structure is at least one bellows chamber vent including a cover configured whereby a bellows chamber extension incrementally transitions the cover to a closed configuration.

An impact-absorbing compressible member includes a thin-walled enclosure defining an inner chamber containing a volume of fluid such as air. The enclosure includes one or more orifices which as sized and positioned to allow air to vent from the inner chamber in response to an impact on the member and to refill the inner chamber in response to an impact on the member and to refill the inner chamber after the impact is released. The enclosure is formed of a blow-molded thermoplastic elastomer (TPE) material which is economical to make and durable in use. The compressible members can be used as building blocks for impact-absorbing shell structures for a wide variety of applications such as helmets, protective pads for body parts, sports arena wall padding, vehicular bumpers, dashboards and the like. The compressible member has impact-absorbing advantages over conventional foams currently used in those applications.

A buffer module and a portable electronic device using the same are provided. The buffer module comprises a buffer component and a base. The buffer component comprises a protrusion. The base has a gas vent and a buffer recess corresponding to the protrusion.