Dynamically Engageable Electromechanical Brake

Organization Name

Halliburton Energy Services, Inc.

Inventor(s)

Bruce Edward Scott of Carrollton TX (US)

Kevin Robin Passmore of Carrollton TX (US)

Dynamically Engageable Electromechanical Brake - A simplified explanation of the abstract

This abstract first appeared for US patent application 18513820 titled 'Dynamically Engageable Electromechanical Brake

Simplified Explanation: The patent application describes a system and method for using an electromechanical brake downhole to provide dynamic or static braking capabilities while reducing shock loads.

Key Features and Innovation:

• Electromechanical brake used for downhole applications
• Capable of imparting dynamic or static braking capabilities
• Absorbs or reduces shock loads
• Used with a downhole electromechanical linear actuator to control a valve for subterranean fluid production
• Includes a brake housing, first and second armatures, an electrical coil, and a rotational spring

Potential Applications: The technology can be used in the oil and gas industry for downhole operations, such as controlling valves for subterranean fluid production.

Problems Solved: The technology addresses the need for reliable braking capabilities downhole to control equipment and reduce shock loads, improving safety and efficiency in operations.

Benefits:

• Enhanced control over downhole equipment
• Reduced shock loads for improved safety
• Increased efficiency in subterranean fluid production operations

Commercial Applications: Potential commercial applications include oil and gas drilling operations, well completion processes, and other downhole activities where precise control and braking capabilities are required.

Prior Art: Readers can start searching for prior art related to electromechanical brakes, downhole equipment control systems, and safety mechanisms in the oil and gas industry.

Frequently Updated Research: Stay updated on advancements in downhole technology, electromechanical systems, and safety measures in the oil and gas sector for potential improvements in braking capabilities and equipment control.

Questions about Electromechanical Brake Downhole: 1. What are the key advantages of using an electromechanical brake downhole? 2. How does the electromechanical brake improve safety in downhole operations?

Original Abstract Submitted

Disclosed herein are systems and methods including an electromechanical brake used downhole to impart dynamic or static braking capabilities while absorbing or otherwise reducing shock loads. The electromechanical brake may be used for a downhole electromechanical linear actuator to control a valve for the production of subterranean fluid. In some examples, it may be desirable for an electromechanical linear actuator to maintain a retracted position during certain safety and/or maintenance operations. The electromechanical brake includes a brake housing, a first armature rotatably disposed in the brake housing, a second armature rotatably disposed in the brake housing for rotation by a motor, an electrical coil energizable to urge the second armature into axial engagement with the first armature, and a rotational spring for biasing the first armature to a neutral rotational position relative to the brake housing while allowing a limited rotation of the first armature relative to the brake housing.