SKMT 161 - Industrial Rigging and Safety

Credits: 2
Instructional Contact Hours: 2

Studies the methods of safe transfer of loads and provides comprehensive easy-to-understand and reliable information of the entire field of rigging operations. Discusses techniques and methods to accomplish the rigger's task with the greatest safety for all of the workers on a project, as well as for passers-by and the public in general. Identifies sources of, organizes, and describes safety rules, regulations and practices related to job-site hazards, personal protective equipment, aerial work, hazard communication, and electrical safety. Credit may be earned in MT 161 or SKMT 161 but not both.

Prerequisite(s): High school GPA of 2.5 or higher within the last ten years OR completion of any MTH class OR completion of the Guided Self-Placement (GSP) process
Corequisite(s): None
Lecture Hours: 15 Lab Hours: 15
Meets MTA Requirement: None
Pass/NoCredit: No

Outcomes and Objectives

Understand what is required for safe operations in rigging procedures.
1. Practice and demonstrate proper rigging hand signals.
2. Identify unsafe loads, equipment, and work practices.
3. Inspect rigging equipment and determine proper solutions.
4. Tie proper knots in accordance with load applications and proper safety procedures.
5. Store rigging equipment in a safe environment.
Discuss proper use of rigging tools in industrial applications.
1. Identify the tools used in rigging and explain the purpose of each.
2. Give examples of three methods of calculating the weight of a load.
3. Explain center of gravity and its importance in rigging a load.
4. Describe four common sling arrangements and the relation between sling angle and horizontal force.
5. Name five types of hooks frequently used in rigging and explain the purpose of each.
6. Discuss proper hook use and cite four reasons for removing a hook from service.
Understand components of wire rope construction, classification, strength, and signs of damage.
1. Identify the component parts of wire rope and describe its construction and classification.
2. Identify and discuss the factors that affect wire rope strength.
3. Describe the basic single-leg and multiple-leg slings and the calculation of their allowable loads.
4. Enumerate the signs of damage that would probably cause a wire rope to be removed from service.
Understand welded-link chain, chain grades and strength, chain slings, inspecting slings, metal mesh slings, sling materials, and proper applications.
1. Identify the different grades of chain and name some of their applications.
2. Define the terms working load limit, proof test, and minimum breaking force.
3. List and discuss four factors that affect the strength of chain slings.
4. Describe three types of damage you might see in a daily inspection of chain slings that would lead you to set the sling aside for more thorough examination.
5. Describe the two standard types of end fittings for metal mesh slings and the hitches for which each can be used.
6. Name several advantages of, and applications for, metal mesh slings.
7. List the visible signs of damage that would cause you to recommend a sling’s removal from service.
Understand ropes, fiber and synthetic fiber slings, and proper application of materials.
1. Identify the grades of manila rope that can be used for overhead lifting.
2. Name the three commonly used synthetic-fiber ropes and list three of their advantages over manila.
3. Discuss the factors that affect the strength of fiber rope.
4. Name the signs of wear or damage that would warrant setting a fiber-rope sling aside for more detailed inspection.
5. Describe an encased polyester fiber sling.
6. Explain the construction of synthetic-web slings and name four of the basic types.
7. List examples of visible damage that should cause a synthetic-web sling to be removed from service.
Understand concepts of overhead manual chain, power, and wire-rope hoists, side pulls, overload limit devices, underhung and top-running cranes, jib cranes, and inspection.
1. Describe the characteristics of the various kinds of overhead hoists.
2. Explain the differences between single and double reeving.
3. Explain the proper function and operation of an upper limit switch and an overload limit device.
4. Describe and contrast the construction of top-running and under-hung cranes.
5. Identify the three basic types of jib cranes.
6. Describe what the rigger’s daily visual inspection should include.
7. List examples of conditions that should warrant removal of wire rope or hoist load chain from service.
Understand safe practices as they apply to hoist and crane operation, special heavy lifts, and all tools of rigging.
1. Enumerate the general operating practices that apply to all tools of rigging.
2. Explain the 11 operating practices that apply to slings.
3. Discuss nine operating practices that should be observed when using a hoist or crane.
4. Detail the special circumstances under which a hoist or crane may be used to pull a load or lift a load heavier than the equipment’s rated capacity.
5. Describe three methods of turning a load.
6. Discuss the eight questions that a rigger must answer in the thought process that should precede any lift.
Explain types of scaffolds, lift platforms, ladders, guy lines, lift belts and how to safely use them.
1. Explain the construction of pole and suspension scaffolds and lift platforms, and the safety measures that apply to them.
2. Name several scaffolding accessories and explain their use.
3. Discuss recommended usage and inspection of the three common types of ladders.