A striker plate includes a base having a surface for contacting a switch and a wall. At least one support projects from the wall. The at least one support supports the base in a hood inner panel. At least one locking tab extends from the wall. The at least one locking tab engages a cutout on the panel. The support is positioned with respect to the respective locking tab so that the support engage the cutouts. Upon rotation of the base, the locking tab engages the cutout locking the base in place on the hood inner panel.

A striker plate includes a base having a surface for contacting a switch and a wall. At least one support projects from the wall. The at least one support supports the base in a hood inner panel. At least one locking tab extends from the wall. The at least one locking tab engages a cutout on the panel. The support is positioned with respect to the respective locking tab so that the support engage the cutouts. Upon rotation of the base, the locking tab engages the cutout locking the base in place on the hood inner panel.

A latch structure includes: a door that is changeable between a closed state in which the door covers a door opening provided on a peripheral wall of a vehicle and an opened state in which the door opens the door opening; a floor panel that constitutes a floor surface of an interior space; a door-side engaging portion mounted on the door; and a floor-side engaging portion mounted on the floor panel and engageable with the door-side engaging portion when the door is in the closed state.

A latch structure includes: a door that is changeable between a closed state in which the door covers a door opening provided on a peripheral wall of a vehicle and an opened state in which the door opens the door opening; a floor panel that constitutes a floor surface of an interior space; a door-side engaging portion mounted on the door; and a floor-side engaging portion mounted on the floor panel and engageable with the door-side engaging portion when the door is in the closed state.

A striker includes a striker pad, a wire, a securing element, and a deformable spacer. The securing element exerts a securing force. The spacer includes a first end that receives the securing force and a second end that contacts the vehicle body. The spacer creates a clearance between the striker pad and the vehicle body when a first torque value is applied to the securing element so that the striker pad is movable along a first axis through a force exerted by the latch of a vehicle door, the latch cooperating with the wire when closing the door. The spacer is configured to deform to allow contact between the striker pad and the vehicle body when a second torque value is applied to the securing element.

An endgate striker assembly engageable with an endgate latch, wherein the endgate striker assembly has a striker and an overmolded-annular shoulder. The striker has an attachment portion at one end, a head at the opposite end and a cylindrical shaft between the attachment portion and the head. The overmolded-annular shoulder is between the cylindrical shaft and the attachment portion. The overmolded-annular shoulder has an annular damper and an annular shoulder. The annular damper is molded over the surface of the annular shoulder facing the cylindrical shaft and at least part of the outer circumferential surface of the annular shoulder.

An endgate striker assembly engageable with an endgate latch, wherein the endgate striker assembly has a striker and an overmolded-annular shoulder. The striker has an attachment portion at one end, a head at the opposite end and a cylindrical shaft between the attachment portion and the head. The overmolded-annular shoulder is between the cylindrical shaft and the attachment portion. The overmolded-annular shoulder has an annular damper and an annular shoulder. The annular damper is molded over the surface of the annular shoulder facing the cylindrical shaft and at least part of the outer circumferential surface of the annular shoulder.

A monument is presented. The monument comprises a floor panel; a left face panel perpendicular to the floor panel; a right face panel perpendicular to the floor panel; and an attachment system connecting the floor panel, the left face panel, and the right face panel. The attachment system comprises a right corner bracket fitting connecting the right face panel to the floor panel; a left corner bracket fitting connecting the left face panel to the floor panel; and a filler panel connected to and extending between the right corner bracket fitting and the left corner bracket fitting.

A monument is presented. The monument comprises a floor panel; a left face panel perpendicular to the floor panel; a right face panel perpendicular to the floor panel; and an attachment system connecting the floor panel, the left face panel, and the right face panel. The attachment system comprises a right corner bracket fitting connecting the right face panel to the floor panel; a left corner bracket fitting connecting the left face panel to the floor panel; and a filler panel connected to and extending between the right corner bracket fitting and the left corner bracket fitting.

A motor vehicle lock, including a detent mechanism with a catch and a pawl. The motor vehicle lock may include a drivetrain arrangement with a drive element that may move in a predefined drive direction. During a cinching sequence, the drive element moves in the predefined drive direction, so that the drivetrain arrangement engages and drives the catch in a closing direction to a primary closed position. During a release sequence, the drive element may move in the predefined drive direction, so that the drivetrain arrangement engages and drives the pawl in a release direction to a release state. During the release sequence, the drive element moves in the predefined drive direction, so that the drivetrain arrangement moves to a clearance state, such that the pawl is in a release state and the catch may pivot to an open position drivetrain.