A method of fitting a fastener to an object is introduced. The fastener has a weldable surface and an engaging portion or a hole portion. One end of the hole portion or one end of the engaging portion has a holding portion. During a welding heating process, solder flows into or enters the holding portion and then cools down and solidifies therein so as to be held therein. Therefore, the weldable surface and the holding portion together enable the fastener to be firmly coupled to an object. The engaging portion and the hole portion together enable an object to be coupled to or removed from another object, so as to couple together and separate at least two objects repeatedly and quickly.

A fastener assembly for a motor vehicle is provided. The fastener assembly comprises a fastener configured to couple a first component to a second component of the motor vehicle, the fastener comprising a shank configured to be received within a bore of the first component; and a retaining member, the retaining member being couplable to the fastener and the first component, the retaining member comprising an opening configured to receive the fastener shank and to provide a resistance against the removal of the fastener shank from the bore of the first component, wherein the retaining member comprises a deformable portion configured to deform from a first state to a second state by virtue of the operating environment of the first component such that the fastener may be removed from the bore when the deformable portion is in the second state following operation of the motor vehicle.

Bicycle dropouts to secure a rear axle of a bicycle include a dropout with locking channels formed over a portion of its face, and a corresponding locking plate with complementary channels formed over one face. The locking plate surrounds the rear axle and the locking and complementary channels engage to prevent the rear axle from moving in the dropout. When the locking plate is loosened so that the channels can disengage, the rear axle position can be adjusted forward and backward to loosen or tighten the chain.

Bicycle dropouts to secure a rear axle of a bicycle include a dropout with locking channels formed over a portion of its face, and a corresponding locking plate with complementary channels formed over one face. The locking plate surrounds the rear axle and the locking and complementary channels engage to prevent the rear axle from moving in the dropout. When the locking plate is loosened so that the channels can disengage, the rear axle position can be adjusted forward and backward to loosen or tighten the chain.

A chest tube fastener. The chest tube fastener includes a bracket having a base. The base includes an upper surface and a lower surface with a plurality of openings formed therethrough. A handle is secured to a surface and protrudes from the upper surface of the base. The handle includes a first end opposite a second end. The first end and the second end are attached to the surface and a gap is formed in between the surface and the handle. The base is attached to an animal, such as a human and a tube is attached to the handle.

A cellular structure may include a plurality of cells each having a twelve-cornered cross section. The twelve-cornered cross section may include twelve sides and twelve corners creating nine internal angles and three external angles. Each cell may include a plurality of longitudinal walls extending between a top and a bottom of the cell, the longitudinal walls intersecting to create corners of the cell. A structural component may include at least one wall surrounding a component interior space with a cellular structure having at least two cells positioned within the interior space. A sandwich structure may include first and second planar structures, and a cellular structure positioned between the first and second substantially planar structures.

A mounting system for mounting a lift gate on a structure is provided, the lift gate having a lift platform supported between a pair of spaced support columns. The mounting system comprises a first mounting member configured for attachment onto said structure, wherein the first mounting member includes a support protrusion for engaging an opening in a wall of a corresponding lift gate support column. The mounting system further comprises a second mounting member configured for attachment onto said structure, wherein the second mounting member includes a support protrusion for engaging an opening in a wall of a corresponding lift gate support column. When the mounting members are attached to the structure and the corresponding lift gate support columns are mounted on the support protrusions, the mounting members support the lift gate on the structure.

A cable tie (1) having a material strip (11), a fastening head (2) that has a first opening (30) provided with a ratchet (34) and protrudes with respect to the longitudinal axis of material strip (11), an insertion element (15) arranged to be introduced in the fastening head (2), first opening (30) passing longitudinally through the fastening head (2) between an entry (31), at a free end of fastening head (2), and an exit (32), ending towards a junction area (16) between material strip (11) and fastening head (2). The fastening head (2) has a second opening (40) that passes transversely therethrough and arranged between junction area (16) and the first opening (30) so that, during a tying position of the cable tie (1), the exit (32) of first opening (30) ends inside of the loop and faces towards second opening (40).

A cable tie (1) having a material strip (11), a fastening head (2) that has a first opening (30) provided with a ratchet (34) and protrudes with respect to the longitudinal axis of material strip (11), an insertion element (15) arranged to be introduced in the fastening head (2), first opening (30) passing longitudinally through the fastening head (2) between an entry (31), at a free end of fastening head (2), and an exit (32), ending towards a junction area (16) between material strip (11) and fastening head (2). The fastening head (2) has a second opening (40) that passes transversely therethrough and arranged between junction area (16) and the first opening (30) so that, during a tying position of the cable tie (1), the exit (32) of first opening (30) ends inside of the loop and faces towards second opening (40).

An attachment structure for an equipment unit of an aircraft includes a first attachment device extending in a longitudinal direction of the aircraft, wherein the first attachment device is attached to a stringer and to a frame and wherein the first attachment device has a first engagement element and a second attachment device attachable to the equipment unit, wherein the second attachment device has a second engagement element adapted for engaging into the first engagement element, such that a force from the equipment unit in the longitudinal direction on the second attachment device is transferred via the second engagement element to the first engagement element and via the first attachment device to the stringer and the frame.