TORQUE WRENCH MODEL
MICROMETER ADJUSTABLE TORQUE
A “micrometer adjustable torque” refers to a type of torque wrench. This tool allows for precise adjustment of the torque (the force applied in turning or twisting something) to a specific level, which is usually displayed on a micrometer scale. The micrometer scale provides high accuracy, making this tool ideal for applications where precise torque settings are crucial, such as in mechanical, automotive, or aerospace work. The user sets the desired torque value by turning a screw or knob, and the wrench indicates when the set torque level is reached, often with a clicking sound.
PRE SET TORQUE WRENCH
A pre-set torque wrench is a type of wrench designed to apply a specific, predetermined amount of torque to a fastener, such as a nut or bolt. This tool allows the user to set the desired torque level, and it typically provides some form of indication (like a click or slip) when this level is reached. It’s used to ensure that the fastener is neither too loose nor too tightly fastened, which is crucial in many mechanical and engineering applications to ensure safety and proper function.
CONVENTIONAL MANUAL TORQUE WRENCH RATCHET TYPE
A conventional manual torque wrench of the ratchet type is a tool used for applying a specific torque to a fastener, such as a nut or bolt. It typically has a mechanism that allows it to work in a ratchet action, meaning it can tighten or loosen without removing and repositioning the tool after each turn. This type of wrench is often used in mechanical applications where precise torque specifications are necessary for safety and performance.
CONVENTIONAL MANUAL TORQUE WRENCH NON RATCHET TYPE
A conventional manual torque wrench of the non-ratchet type is a tool used for precisely applying a specific torque to a fastener, such as a nut or bolt. It differs from a ratchet torque wrench in its mechanism; this type typically requires the user to reset its position manually after each turn. It’s often used in situations where precise torque specifications are required and is particularly favored in environments where the ratcheting mechanism might not be reliable or could be prone to failure.