A fastener structurally configured to secure an electronic component in an enclosure without using tools during installation to provide enhanced installation efficiency and simplicity. The fastener may include a housing portion having a plunger receiving portion, a plunger portion configured to be received in the plunger receiving portion, a biasing portion configured to be received on a distal end portion of the plunger portion, and an operating portion configured to be coupled with the plunger portion such that movement of the operating portion from a first position to a second position results in relative movement between the plunger portion and the plunger receiving portion such that the biasing portion is axially compressed and radially expanded so as to secure an electronic component in the enclosure.

A method is provided for assembling an apparatus. During this method, a circuit element is arranged with a circuit board. The circuit element includes an element aperture. The circuit board includes a board aperture. A plunger is moved in a first direction to pass a distal end of the plunger through the element aperture and the board aperture and into a volume adjacent the circuit board. A retainer is pivoted within the volume. The retainer is pivotally mounted to the plunger at the distal end of the plunger. The plunger is moved in a second direction to clamp the circuit board between the retainer and the circuit element.

A cartridge mechanism for monitoring a clamping force of a temporary fastener includes an inner assembly, an outer assembly, and a displacement indicating system. The inner assembly has an inner cap and an inner spring. The outer assembly has an outer cap and an outer spring. The displacement indicating system indicates an amount of compressive displacement of the inner and outer springs that represents attainment of a preliminary clamping force exerted on the structure by the temporary fastener. The inner spring is uncalibrated and has a spring constant substantially equal to that of the outer spring, which is calibrated to one-half the preliminary clamping force at the amount of compressive displacement indicated by the displacement indicating system. The outer assembly is removable from the inner assembly to result in a final clamping force exerted by the temporary fastener on the structure of approximately one-half the preliminary clamping force.

An installation tool (14) has a tool body (50) comprising a first opening capable of blocking the axial end of the body (26) of a fastener (12) and an actuating device (52), rotatable relative to the tool body and comprising a second opening capable of blocking a fastener actuating element (28). The tool includes a pressure chamber (120) in the tool body a duct (122) connecting the pressure chamber to the first opening (62), a blocking element (124), movable in the duct between a retracted position and a projecting position; and a fluid inlet (55) opening onto the pressure chamber. An inflow of fluid into the pressure chamber moves the blocking element (124) to the protruding position.

An installation tool (14) has a tool body (50) comprising a first opening capable of blocking the axial end of the body (26) of a fastener (12) and an actuating device (52), rotatable relative to the tool body and comprising a second opening capable of blocking a fastener actuating element (28). The tool includes a pressure chamber (120) in the tool body a duct (122) connecting the pressure chamber to the first opening (62), a blocking element (124), movable in the duct between a retracted position and a projecting position; and a fluid inlet (55) opening onto the pressure chamber. An inflow of fluid into the pressure chamber moves the blocking element (124) to the protruding position.