8.9:

Upward Impending Motion

JoVE Core
Mechanical Engineering
É necessária uma assinatura da JoVE para visualizar este conteúdo.  Faça login ou comece sua avaliação gratuita.
JoVE Core Mechanical Engineering
Upward Impending Motion

164 Views

01:21 min

September 22, 2023

A square-threaded screw jack is a mechanical device widely used for lifting heavy loads or applying considerable force. Its operation is based on converting the force applied at its handle into a torsional moment, causing the upward impending motion of the screw. This movement is accomplished by overcoming the static friction between the threads of the screw and the jack.

To better comprehend how a screw jack functions, consider the completely unraveled thread as a block in contact with the groove of the jack. By drawing a free-body diagram of this scenario, we can analyze the forces acting on the system.

Figure 1

The torsional moment produced by the applied force at the handle generates a horizontal force that pushes the movable thread up the fixed incline of the jack thread. Simultaneously, the load being lifted applies an axial force on the thread.

The groove of the jack exerts a reaction force on the screw thread. This reaction force comprises both normal and frictional components, which are related through the coefficient of friction. The angle of static friction for impending motion can be determined by finding the inverse tangent of the coefficient of friction.

Equation 1

With this information, apply the equilibrium equations for the forces along the horizontal and vertical axes.

Equation 2

Equation 3

These equations allow the analysis of the relationship between the applied force, the reaction forces, and the resulting motion of the screw jack.

Rearranging the equations in terms of the reaction force and equating them provides the moment equilibrium equation for the upward impending motion.

Equation 4

By solving this moment equilibrium equation, one can determine the minimum force required at the handle to initiate the upward motion of the screw jack. This calculation enables the optimization of the design and operation of the screw jack for various applications, ensuring that it can effectively lift heavy loads or apply large forces as needed.