A fastening portion structure of a resin part including a tubular member integrally embedded therein by insert molding, and an insertion hole formed inside the tubular member, in which a screw member is inserted through the insertion hole, and the tubular member is compressed in an axial direction by the screw member, so that the resin part is fixed to a predetermined member. An inner peripheral surface of the tubular member is exposed in a region from one end to an intermediate position in the axial direction of the tubular member, but is covered by a resin in a region from the intermediate position to the other end, and the insertion hole is formed in a resin covering the inner peripheral surface of the tubular member.

A fastening portion structure of a resin part including a tubular member integrally embedded therein by insert molding, and an insertion hole formed inside the tubular member, in which a screw member is inserted through the insertion hole, and the tubular member is compressed in an axial direction by the screw member, so that the resin part is fixed to a predetermined member. An inner peripheral surface of the tubular member is exposed in a region from one end to an intermediate position in the axial direction of the tubular member, but is covered by a resin in a region from the intermediate position to the other end, and the insertion hole is formed in a resin covering the inner peripheral surface of the tubular member.

A thermoelectric module assembly for thermally conditioning a component includes first and second members that are spaced apart from one another and are configured to respectively provide cold and hot sides. An insulator plate is arranged between the first and second members. A thermoelectric device is arranged within the insulator plate and is operatively engaged with the first and second members. A fastening element secures the first and second members to one another about the insulator plate in an assembled condition. A thermal insulator is provided in one of the first and the second members and is configured to receive the fastening element.

A thermoelectric module assembly for thermally conditioning a component includes first and second members that are spaced apart from one another and are configured to respectively provide cold and hot sides. An insulator plate is arranged between the first and second members. A thermoelectric device is arranged within the insulator plate and is operatively engaged with the first and second members. A fastening element secures the first and second members to one another about the insulator plate in an assembled condition. A thermal insulator is provided in one of the first and the second members and is configured to receive the fastening element.

A self-drilling anchor including a screw and an anchor body configured to receive a shank of the screw, the anchor body including: a flange at an end oriented toward a head of the screw, a threaded portion, a deformable expansion portion between the flange and the threaded portion, and a rotation locking mechanism preventing rotation of the anchor body relative to the wall. The threaded portion is configured to engage with the screw thread and advance in a direction of the flange, by deforming the expansion portion, when the screw is screwed into the threaded portion. The anchor body further includes a piercing element at the opposite end from the flange, the anchor including a fastening mechanism between the screw and the anchor body, the fastening mechanism being detachable by a torque, applied between the screw and the anchor body, equal to or greater than a predetermined torque.

A self-drilling anchor including a screw and an anchor body configured to receive a shank of the screw, the anchor body including: a flange at an end oriented toward a head of the screw, a threaded portion, a deformable expansion portion between the flange and the threaded portion, and a rotation locking mechanism preventing rotation of the anchor body relative to the wall. The threaded portion is configured to engage with the screw thread and advance in a direction of the flange, by deforming the expansion portion, when the screw is screwed into the threaded portion. The anchor body further includes a piercing element at the opposite end from the flange, the anchor including a fastening mechanism between the screw and the anchor body, the fastening mechanism being detachable by a torque, applied between the screw and the anchor body, equal to or greater than a predetermined torque.

A high capacity radial-fit coupling bolt (or expanding sleeve bolt) has a pair of tapered sleeves about a shank of a bolt to which can be applied a tensioning load. An extrudable ring, or a compression ring, is interposed between a head nut or head flange at one end of the shank, and one end of an inner sleeve. A tensioning load is applied to the shank, the inner sleeve causing the outer sleeve to expand diametrically. At a preset load limit, the extrudable ring is extruded through at least one bore in a drive piston between the head nut and the extrudable ring, to allow shank to move relative to the inner sleeve until the tensioning load is fully applied. Alternatively, a drive member is provided between the head nut or head flange and the compression ring, and at a preset limit, the compression ring allows the shank to move relative to inner sleeve until the tensioning load is fully applied. The preset limit will typically correspond to the force required to fully expand the outer sleeve.

A high capacity radial-fit coupling bolt (or expanding sleeve bolt) has a pair of tapered sleeves about a shank of a bolt to which can be applied a tensioning load. An extrudable ring, or a compression ring, is interposed between a head nut or head flange at one end of the shank, and one end of an inner sleeve. A tensioning load is applied to the shank, the inner sleeve causing the outer sleeve to expand diametrically. At a preset load limit, the extrudable ring is extruded through at least one bore in a drive piston between the head nut and the extrudable ring, to allow shank to move relative to the inner sleeve until the tensioning load is fully applied. Alternatively, a drive member is provided between the head nut or head flange and the compression ring, and at a preset limit, the compression ring allows the shank to move relative to inner sleeve until the tensioning load is fully applied. The preset limit will typically correspond to the force required to fully expand the outer sleeve.

A deformable fastening system includes a clamped component and a fastener including a bolt having a shaft portion extending along a longitudinal axis of the fastener and a head portion having a surface including at least one engagement portion and one or more projections formed on the at least one engagement portion. The one or more projections are formed on the at least one engagement portion generally proximate the shaft portion. The one or more projections formed on the at least one engagement portion engage a mating surface of the clamped component to clamp the clamped component when the bolt is moved into a nut member causing an increase in axial load during the tightening cycle to deform the clamped component.

A deformable fastening system includes a clamped component and a fastener including a bolt having a shaft portion extending along a longitudinal axis of the fastener and a head portion having a surface including at least one engagement portion and one or more projections formed on the at least one engagement portion. The one or more projections are formed on the at least one engagement portion generally proximate the shaft portion. The one or more projections formed on the at least one engagement portion engage a mating surface of the clamped component to clamp the clamped component when the bolt is moved into a nut member causing an increase in axial load during the tightening cycle to deform the clamped component.