Usage of a Lockout Hasp
1. Energy Isolation: Lockout hasps are used to secure energy sources (like electrical
panels, valves, or machinery) during maintenance or repair, ensuring
that equipment cannot be accidentally energized.
2. Multiple User Access: They allow multiple employees to attach their padlocks to a single
hasp, ensuring that all parties involved in maintenance must remove
their locks before the equipment can be re-energized.
3. Compliance with Safety Protocols: Lockout hasps help organizations comply with safety regulations by
ensuring proper lockout/tagout (LOTO) procedures are followed.
4. Tagging: Users can attach safety tags to the hasp to communicate the reason for
the lockout and identify who is responsible, enhancing accountability.
5. Durability and Security: Made from robust materials, lockout hasps provide a reliable means of
securing equipment, preventing unauthorized access during maintenance.
6. Versatility: They can be used in various industries, including manufacturing,
construction, and utilities, making them a key component in safety
programs.
Different Types of Lockout Hasps
Standard Lockout Hasp: A basic version that typically holds multiple padlocks, ideal for general lockout/tagout situations.
Adjustable Lockout Hasp: Features a movable clamp to secure different sizes of energy-isolating devices, accommodating various applications.
Multi-Point Lockout Hasp: Designed for use on equipment with multiple locking points, allowing for several padlocks to be applied simultaneously.
Plastic Lockout Hasp: Lightweight and corrosion-resistant, suitable for environments where metal may not be ideal, such as chemical processing.
Metal Lockout Hasp: Made of sturdy metal for heavy-duty applications, offering enhanced security for more robust machinery and equipment.
Tagout Hasp: Often includes a space for attaching a safety tag, providing information about the lockout and who is responsible.
Combination Lockout Hasp: Incorporates a built-in combination lock, providing an added layer of security without needing separate padlocks.
Benefits of Lockout Hasps
Enhanced Safety: Prevents accidental machinery operation during maintenance or repair, protecting workers from potential injuries.
Multi-User Access: Allows multiple workers to securely lock out equipment, ensuring that everyone involved in maintenance is accounted for.
Compliance with Regulations: Helps organizations meet OSHA and other safety standards for lockout/tagout procedures, reducing legal risks.
Durability:
Made from robust materials, lockout hasps are designed to withstand
harsh industrial environments, ensuring long-term reliability.
Visibility and Awareness: The bright colors and tagging options promote awareness of locked-out equipment, reducing the risk of unauthorized access.
Ease of Use: Simple design facilitates quick application and removal, streamlining lockout procedures for workers.
Cost-Effective: Investing in lockout hasps can minimize the risk of accidents and associated costs, such as medical expenses and downtime.
How to Use a Lockout Hasp
1.Identify the Equipment: Locate the machine or equipment that requires servicing or maintenance.
2.Shut Down the Equipment: Turn off the machinery and ensure it is completely powered down.
3.Isolate Energy Sources: Disconnect all energy sources, including electrical, hydraulic, and pneumatic, to prevent unexpected reactivation.
4.Insert the Hasp: Open the lockout hasp and place it around the energy isolation point (like a valve or switch) to secure it.
5.Lock the Hasp: Close the hasp and insert your lock through the designated hole. If
using a multi-user hasp, other workers can also add their locks to the
hasp.
6.Tag the Hasp: Attach a tag to the hasp indicating that maintenance is being
performed. Include information such as the date, time, and names of
individuals involved.
7.Perform Maintenance: With the lockout hasp securely in place, proceed with the maintenance
or repair work, knowing the equipment is safely locked out.
8.Remove the Lockout Hasp: Once maintenance is complete, inform all involved personnel. Remove
your lock and the hasp, and ensure all tools are cleared from the area.
9.Restore Power: Reconnect all energy sources and safely restart the equipment.