A securing arrangement for securing at least one component to an appliance is provided. The at least one component is arranged on a receiving region of the appliance. The securing arrangement comprises a securing element configured for locking connection of the at least one component to the appliance. The securing element comprises a plate and has weakened regions and deformation zones between at least one peripheral, unweakened receiving region and at least one pressure and centering region resting on a surface of the component. The securing arrangement further comprises a plurality of spacers extending from the receiving region of the appliance to below the height of the surface of the at least one component. The at least one unweakened receiving region of the securing element is configured to be braced against the spacers.

A roof system for a vehicle having an opening in a roof includes a panel and a guide rail at each longitudinal side of said opening. An operating mechanism operates the closure panel in a longitudinal direction of the vehicle. The operating mechanism includes a front device including a lever for moving the front edge of the panel in a vertical direction. A driving slide is slidably accommodated in each guide rail and is drivable by a drive member. The lever is connected to the driving slide through a pin-curve assembly and is provided with a slide-shoe. A curve of the pin-curve assembly has a first curve section extending horizontally allowing a pin to slide along to move the rear of the panel vertically. A locking curve section extends mainly in vertical direction to allow the driving slide to rotate the lever.

An exterior decoration device includes: a garnish frame including an upper surface and a reaction force hook protruding inclinedly from a rim portion of the garnish frame and configured to be elastically deformed; a level difference adjustment bolt configured to form a dispersion adjustment structure in a state of being coupled to the garnish frame, protruding in a direction opposite to the garnish exposure member, and configured to adjust both a surface level difference of the garnish exposure member and a hook level difference of the reaction force hook by inducing a rotation of the dispersion adjustment structure and changing a protrusion length from the garnish frame; and a fastening tool configured to define an excessive torque cut-off structure together with the level difference adjustment bolt.

A vehicle bracket assembly includes first and second platforms each including a body and connectors that extend from each of the bodies. A central base is disposed between the first and second platforms and are coupled to the first and second platforms via the connectors. First and second connecting legs are coupled to the body of each of the first and second platforms, respectively. A first attachment base is coupled to the first platform via the first connecting legs. A second attachment base includes a locating tab. The second attachment base is coupled to the second platform via the second connecting legs.

A component combination of at least two components, which are joined at at least one joint, is provided. The component combination includes a first component, wherein a first joining element having a supporting section is pressed into a passage hole in the first component at the joint, and includes a second component, in which a fastening receiving section is formed at the joint, wherein the first joining element also has a fastening section, which engages in the fastening receiving section of the second component in a form-fitting and/or force-fitting manner. A method for producing the component combination is also provided.

Some embodiments of the present disclosure relate to an apparatus including an additively manufactured node having a socket. The apparatus includes a panel interconnected with node. The panel includes opposing surface layers and a core between at least a portion of the surface layers. The socket engages an end portion of the panel and shapes the surface layers on the end portion of the panel.

The invention relates to an insert for connecting an electrical connector to a wall (9) and to a corresponding method. The insert comprises an electrically conductive bolt (1) having a head (3), which extends along a first longitudinal axis (I), and a shaft (4), which is provided with at least one connecting means (5), and a ring (2), which has a through-opening (7) and extends along a second longitudinal axis (II). The head (3) comprises an outer contour which, at least in regions, is produced by the rotation about the first longitudinal axis (I) of a first line (L1), which is curved with a first radius (R1) and spaced apart from the first longitudinal axis (1). The through-opening (7) comprises an inner contour which, at least in regions, is produced by the rotation about the second longitudinal axis (II) of a second line (L2), which is curved with a second radius (R2) and spaced apart from the second longitudinal axis (II).

The invention relates to an insert for connecting an electrical connector to a wall (9) and to a corresponding method. The insert comprises an electrically conductive bolt (1) having a head (3), which extends along a first longitudinal axis (I), and a shaft (4), which is provided with at least one connecting means (5), and a ring (2), which has a through-opening (7) and extends along a second longitudinal axis (II). The head (3) comprises an outer contour which, at least in regions, is produced by the rotation about the first longitudinal axis (I) of a first line (L1), which is curved with a first radius (R1) and spaced apart from the first longitudinal axis (1). The through-opening (7) comprises an inner contour which, at least in regions, is produced by the rotation about the second longitudinal axis (II) of a second line (L2), which is curved with a second radius (R2) and spaced apart from the second longitudinal axis (II).

A method for driving a piercing element includes: preparing a plate material, the piercing element, a preceding punch, and a die; arranging the plate material on a hole portion of the die; arranging the piercing element and the preceding punch in order downward from above on the plate material and on a position corresponding to the hole portion; punching the plate material via the preceding punch by pressing the piercing element downward; dropping a punched piece downward from the hole portion; following the punching of the plate material, driving the piercing element to be embedded in the plate material and causing the plate material to bite a constricted portion; and dropping the preceding punch downward from the hole portion.

A connection device for a frame, the connection device comprising a body comprising: a first engagement member (1) and a second engagement member (2). Said body comprises a sealing flange (13) which is configured to extend in parallel alignment with a first flange (7) of a first beam (4) and with a second flange of a second beam when the first and second beams are connected to the connection device via the first and second engagement members (1, 2) respectively, and which sealing flange (13) comprises a first recess (14) configured for receiving the first flange (7) of the of first beam (4) when the first beam (4) is connected to the connection device via the first engagement member (1), and a second recess (15) configured for receiving the second flange of the second beam when the second beam is connected to the connection device via the second engagement member (2).