Around the world these tools are known by many names—rigging sticks, push pull sticks, push pull poles, no-touch tools, load control sticks and suspended load guidance tools. The objective remains the same: keeping hands away from pinch points, crush zones and line-of-fire hazards while maintaining control of the load.
Long before the term "rigging stick" entered the safety lexicon, workers in lifting and rigging operations had already discovered a fundamental problem: guiding a suspended load by hand was dangerous, but letting a load swing uncontrolled was equally unacceptable. The earliest solutions were improvised—scaffold poles, wooden boards, lengths of rope—anything that created distance between the worker's hands and the moving load.
The offshore oil and gas sector in the 1970s and 1980s accelerated the need for more deliberate solutions. On cramped platform decks, loads transferred between supply vessels and topsides presented severe pinch-point and crush hazards. Deckhands were being injured with alarming regularity during what should have been routine lifts. Tag lines helped with long-distance control, but the final metre of positioning still required direct hand contact.
Shipyards and steel fabrication plants encountered the same problem from a different direction. Heavy plate steel, fabricated sections and pipe bundles needed precise alignment before final bolting or welding. Workers used whatever was nearby—steel offcuts, scaffold couplers—to nudge loads into position. The results were unpredictable and frequently led to crush injuries of fingers, hands and wrists.
The formalisation of the category came gradually through industry-specific safety initiatives. The UK Health and Safety Executive's guidance on suspended loads, and similar frameworks from OSHA, the International Maritime Organisation and various offshore sector operators, began referencing purpose-built tools for the final positioning phase of a lift. The rigging stick—as a defined, engineered product category—had arrived.
"The most dangerous moment of any lift is the final 300 millimetres of travel."
— Offshore Safety Management, North Sea OperationsUnderstanding why workers reach for loads—despite knowing the risks—is essential to understanding what a rigging stick must actually deliver. This is not a behaviour rooted in recklessness. It is rooted in a completely rational response to real task demands.
The task is legitimate. The method is hazardous.
Rigging sticks address this by providing a tool that performs the same function—guiding, nudging, aligning, arresting—without requiring the worker's hands to be anywhere near the load.
Hand and finger injuries represent some of the most common—and most permanently disabling—injury types recorded in lifting and rigging operations globally. The mechanism is almost always the same: a load moves unexpectedly, and a hand is in the way.
Pinch points are created wherever a load can close against another surface—a deck fitting, a structural member, the ground. The forces involved in even a modest suspended load are enough to sever fingers or crush bone. The load does not need to be moving quickly. Gravity alone, on a load weighing several hundred kilograms, is sufficient.
Line-of-fire injuries occur when a worker is in the path of potential load movement. A rigging failure, an unexpected crane command, a gust of wind—any of these can bring a load into contact with a worker who believed they were in a safe position.
A rigging stick is a purpose-built hand tool used by riggers and lifting operatives to guide, push, pull and position suspended loads during crane operations and rigging tasks—without requiring direct hand contact with the load itself.
The term "rigging stick" is most common in the oil and gas sector, offshore industries and heavy construction. The tool bridges the gap between the crane operator's macro-level control and the worker's need for millimetre-level positioning precision on the ground.
A rigging stick is distinguished from a simple pole or rod by its purpose-designed features: a robust handle with hand protection, a contact head designed to maintain reliable engagement with the load surface, and sufficient rigidity to transmit push and pull forces without flex or failure.
A push pull stick is a load guidance tool designed specifically to transmit both pushing and pulling forces to a suspended or moving load. The name emphasises the bidirectional force capability—the worker can push a load away or pull it towards a target position with equal control.
Push pull sticks are widely used in manufacturing, warehousing, construction and marine environments. The terminology is particularly prevalent in health and safety training programmes and procedural documentation, where the tool's function (pushing or pulling loads) needs to be communicated clearly to workers regardless of industry background.
The distinction between a rigging stick and a push pull stick is largely terminological—the functional requirement is identical. A rigger on a North Sea platform might reach for a "rigging stick" while a warehouse supervisor in a distribution centre reaches for a "push pull stick."
The "no-touch tool" designation reflects the safety principle rather than a specific tool design. A no-touch tool is any device that allows a worker to control, guide or position a load without any part of the worker's body coming into contact with that load.
The term has gained traction particularly in safety management systems, permit-to-work procedures and toolbox talks, where the principle of eliminating direct contact needs to be expressed simply and memorably. "No touch" communicates the required behaviour clearly.
In practice, a rigging stick is the primary no-touch tool for suspended load operations. The worker maintains control of the load through the stick—they can feel what the load is doing, communicate positioning information to the crane operator, and intervene precisely—without ever placing their hands on the load surface.
The term "suspended load guidance tool" is the most technically precise designation for the category. It identifies the load state (suspended—meaning it is being supported by a crane, hoist, or lifting device and therefore has potential energy) and the tool's function (guidance—directional control of movement and position).
This terminology is most frequently used in formal risk assessments, safe system of work documents and regulatory compliance contexts. It is the language of method statements, lifting plans and safety management systems rather than the language of the toolbox.
A suspended load guidance tool may also be referenced in crane operation standards and lifting equipment regulations, where the hierarchy of control—elimination, substitution, engineering controls, administrative controls, PPE—identifies guidance tools as an engineering control between the worker and the hazardous load.
| Common Name | Primary Industry / Region | Context Used | Colour |
|---|---|---|---|
| Rigging StickMOST COMMON | Oil & Gas, Offshore, Construction | Site operations, toolbox talks | — |
| Push Pull Stick | Manufacturing, Warehousing, General Industry | Safety training, procedure documents | — |
| Push Pull Pole | Utilities, Telecom, Construction | Operational instructions, verbal | — |
| No-Touch ToolHSE TERM | Cross-industry, HSE/Safety Mgmt | Permit to work, toolbox talks | — |
| Hands-Free Tool | Manufacturing, Mining, Ports | Ergonomics and safety programmes | — |
| Load Control Stick | Crane operations, Logistics | Lifting plans, method statements | — |
| Load Guidance Pole | Steel, Marine, Port operations | Risk assessments, procedures | — |
| Suspended Load Guidance ToolFORMAL | Regulatory, formal lifting documents | Risk assessment, legal compliance | — |
| Rigging Safety Tool | Offshore, Oil & Gas | QHSE documentation | — |
| Crane Guidance Tool | Construction, Infrastructure | Lifting supervisors, crane operators | — |
Workers and safety professionals across different industries are all searching for the same essential tool using different terminology. The underlying need—maintaining control of a load without placing hands in hazardous zones—is universal. The language varies by sector, geography and organisational culture.
When there is no purpose-built rigging stick available, workers reach for whatever is nearby. Scaffold poles, wooden boards, lengths of reinforcing bar, broom handles, even rolled-up drawings—all of these have been documented as improvised load guidance tools in workplaces around the world. The improvisation is understandable. The consequences are not.
Generic poles offer no ergonomic grip. Under the dynamic forces involved in guiding a suspended load, the pole can slip, twist or rotate in the worker's hand, transmitting shock loads directly to the wrist and forearm.
Without a protective hand guard, a generic pole offers nothing between the worker's hand and the load. If the pole is caught between load and structure, the worker's hand follows.
Round metal poles or wooden boards do not engage reliably with load surfaces. They slip, skid or deflect, removing control at the critical moment and potentially causing the load to move unpredictably.
An improvised pole may be too short—forcing the worker closer to the hazard—or too long, making directional control imprecise. Neither situation is acceptable.
Grey scaffold tube, brown wood or dark metal provides zero visual indication to the crane operator, lift supervisor or adjacent workers that a guiding device is in use and where the worker is standing relative to the load.
No improvised pole has been engineered, tested or rated for the forces involved in suspended load guidance. When they fail—and they do fail—they fail without warning and often at the worst possible moment.
"Using the wrong tool in the right situation is still using the wrong tool."
— Rigging Safety PrincipleEvery limitation of the generic pole—the absent grip, the missing hand guard, the unreliable contact surface, the poor visibility—represents a design brief. HSF RiggerSafe® was built by answering that brief directly, with input from riggers, offshore safety managers and industrial lifting professionals.
The result is a purpose-built rigging stick that addresses each failure mode of improvised alternatives while delivering the precision, durability and visibility that demanding industrial environments require.
Maximum visibility in low-light, dirty or cluttered industrial environments. ANSI/ISO high-visibility standard.
High contrast in bright outdoor, offshore deck and marine environments where yellow may blend with signage.
Extreme high-visibility fluorescent green. Exceptional in night operations, shadowed areas and dusty sites.
The fibreglass handle provides the ideal combination of rigidity and weight. Unlike steel, fibreglass does not add unnecessary mass to a tool that must be held and manoeuvred for sustained periods. Unlike aluminium, it is non-conductive—critical in environments where live electrical equipment may be present during lifting operations. The handle transmits force efficiently without absorbing the user's energy.
The hand guard is the most important safety feature on a rigging stick and the component most conspicuously absent from every improvised alternative. RiggerSafe® hand guards create a physical barrier between the worker's grip and the load—preventing hand contact if the stick is pushed back against the user by load movement, and reducing the transfer of impact shock to the hand and wrist during dynamic load control.
The D-handle configuration provides a secure, two-point grip reference that allows the worker to push, pull and steer the load with precision. The ergonomic geometry reduces wrist fatigue during extended use and maintains positive handle orientation regardless of tool angle—critical when guiding loads overhead or at awkward angles.
The V-head contact end is engineered to maintain engagement with load surfaces across a range of geometries—round pipe, square tube, flat plate, structural sections. The V-profile creates a self-locating reference that resists lateral slip during application of force. Rubber inserts within the V-head provide the controlled friction needed to guide a load precisely without skidding or deflecting unpredictably.
Where hard contact materials bounce or slip against painted, coated or smooth load surfaces, rubber inserts provide the controlled damping and friction required for reliable load guidance. The inserts absorb micro-vibration from the load, giving the worker meaningful tactile feedback about load behaviour without transmitting harmful shock loads to the hand and arm.
The engineered polymer components of RiggerSafe® are selected for performance in the most demanding industrial environments: resistant to impact, UV degradation, petrochemical exposure, seawater and extreme temperature variation. The material choice reflects the reality that rigging sticks are working tools—they will be dropped, stored outdoors, exposed to chemicals and used in conditions far removed from the laboratory.
| Feature | HSF RiggerSafe® | Scaffold Tube | Wooden Pole | Rope Tag Line |
|---|---|---|---|---|
| Purpose-designed grip | ✓ | ✗ | ✗ | ✗ |
| Hand protection guard | ✓ | ✗ | ✗ | ✗ |
| Controlled contact head | ✓ | ✗ | ✗ | ✗ |
| High-visibility colour | ✓ | ✗ | ✗ | ◑ |
| Push AND pull capability | ✓ | ◑ | ◑ | ✗ |
| Final positioning precision | ✓ | ✗ | ✗ | ✗ |
| Multiple lengths available | ✓ | ◑ | ◑ | ◑ |
| Offshore / marine rated | ✓ | ✗ | ✗ | ✗ |
Platform decks and drill floors present some of the most severe suspended load hazards in any industry. Pipe tubs, BHA components, subsea equipment and production hardware are lifted in environments where vessel motion, wind and congested deck space compound the risk. RiggerSafe® rigging sticks are in daily use across North Sea, Gulf of Mexico and Asia-Pacific offshore operations.
Ship sections, prefabricated blocks and heavy marine equipment demand precise load guidance as crane lifts close towards installation positions. Steel-on-steel contact surfaces, confined build docks and the sheer mass of shipbuilding components make the hand guard and contact head of a rigging stick essential rather than optional.
Turbine blade installation and nacelle lifting are among the most technically demanding crane operations in renewable energy construction. Rigging sticks are used during final blade alignment to prevent inadvertent contact between the blade and hub structure—preventing costly component damage as well as injury.
Structural steel erection—columns, beams, trusses—requires precise bolt-hole alignment as each element lands. Ironworkers have historically used hands for this final positioning; rigging sticks provide the same alignment precision while keeping hands clear of pinch points between steel sections.
Container handling, general cargo operations and ship-to-shore transfers all involve loads moving at speed through confined areas. Stevedores and port crane crews use push pull sticks and load guidance poles to control load swing during dockside operations, particularly for loads transferred in sea conditions or between moving vessels.
Underground and surface mining operations lift heavy equipment components—pump assemblies, motors, gearboxes—in confined headings and over operating machinery. The rigging stick provides safe guidance without placing workers inside equipment crush zones during installation lifts.
Available sizes vary by colour. Select the length that places you fully outside the load's hazard envelope.
Tag lines and rigging sticks are complementary rather than competing tools—but they perform fundamentally different functions and should never be treated as interchangeable.
A tag line is a rope or strap attached to a load to control its orientation and rotation during long-distance crane travel. Tag lines are effective during the travel phase—when the load is moving horizontally across a site and needs to be prevented from spinning or oscillating. The tag line worker typically stands at a significant distance from the load.
A rigging stick takes over where the tag line's capability ends: in the final positioning phase. When the load is within metres of its landing point and needs precise directional guidance, push and pull capability, and millimetre-level alignment, the rigging stick provides the rigid, controlled interface that a rope cannot.
Best practice: use tag lines for load travel control, rigging sticks for final guidance and placement.
The terms "rigging stick" and "push pull pole" refer to closely related products, and in many contexts they are used interchangeably. However, there are meaningful differences in the product characteristics that each term implies.
A push pull pole often describes a simpler, longer-reach tool designed primarily for one-directional force application—pushing a load into position or pulling it away. Push pull poles are commonly used in utilities work, cable management and plant operations where the emphasis is on reach and straightforward force application rather than precision guidance.
A rigging stick implies a higher specification: purpose-designed for the specific demands of crane and lifting operations, with hand protection, a controlled contact head, high-visibility colouring and the structural rigidity to perform during dynamic load events. It is a tool built for riggers, not a repurposed utility pole.
Colour in industrial safety tools is not aesthetic preference—it is operational information. When a rigger is using a rigging stick during a crane operation, the crane operator, lift supervisor, banksman and adjacent workers all need immediate visual awareness of where that tool is and where the person holding it is standing.
The direction of industrial safety regulation globally is unambiguous: exposure reduction. Every major lifting standard—ISO, OSHA, HSE, NORSOK, DNV—is moving towards requirements that keep workers further from hazardous loads, with more engineered controls between the person and the potential energy of a suspended mass.
The rigging stick is not a legacy tool being preserved for sentiment. It is an engineering control that sits at the intersection of two powerful trends: the regulatory drive towards elimination of body-in-hazard-zone work practices, and the operational reality that final positioning of loads will always require human involvement—a human with a tool, rather than a human with bare hands.
Purpose-built rigging sticks and push pull tools will become standard PPE and equipment requirements across lifting operations globally, as organisations move from "workers should not use their hands" as a verbal instruction to "workers cannot use their hands" as an engineered outcome.
"Line-of-fire prevention is not about telling people to stand back. It is about giving them a better tool to stand further back with."
— HSF RiggerSafe® Engineering PrincipleA rigging stick is used to guide, push, pull and position suspended loads during crane operations and lifting tasks without requiring the worker to place their hands directly on the load. It creates physical separation between the worker and pinch points, crush zones and line-of-fire hazards.
Functionally yes—both tools serve the same purpose. "Rigging stick" is the common terminology in offshore, oil and gas and heavy lifting environments; "push pull stick" is more common in manufacturing, general industry and safety training contexts. The HSF RiggerSafe® fulfils both descriptions.
A no-touch tool is any device that allows a worker to control a load without direct hand contact. In rigging operations, the rigging stick or push pull stick is the primary no-touch tool. The term is widely used in safety management systems and permit-to-work procedures.
The hand guard prevents the worker's hand from being struck by the load if the stick is pushed back towards the user, and provides a physical stop that prevents hand-to-load contact even under dynamic conditions. It is the most critical safety feature that generic poles and improvised tools lack entirely.
Length selection depends on the standoff distance required between the worker and the load. HSF RiggerSafe® is available in multiple lengths from 21" to 96" (533mm–2438mm), with different size options per colour. As a general rule, the rigging stick should be long enough to allow the worker to stand completely clear of the load's potential movement envelope during normal guiding operations.
Yes. HSF RiggerSafe® is specifically designed for offshore and marine environments. The fibreglass handle, engineered polymer construction and UV/chemical-resistant materials are selected for performance in conditions including saltwater exposure, UV radiation and temperature extremes common to offshore platform operations.
The handle is fibreglass for strength and non-conductivity. The structural and contact components are heavy-duty engineered polymer. The V-head inserts are rubber for controlled load contact. All materials are selected for durability and performance in demanding industrial environments.
Fibreglass offers the best combination of rigidity, weight, durability and electrical non-conductivity for rigging stick applications. Metal handles conduct electricity (a hazard near electrical equipment), add unnecessary weight, and can be uncomfortably cold in offshore environments. Fibreglass avoids all of these issues.
A suspended load guidance tool is the formally correct technical designation for a rigging stick or push pull stick used during crane and hoist operations. The term is used in risk assessments, lifting plans, method statements and regulatory compliance documentation.
By enabling the worker to guide a load from outside the load's potential movement envelope. A worker using a 72" (1829mm) rigging stick can be standing nearly two metres away from the load—potentially clear of the hazard zone entirely—while still maintaining precise directional control. A worker using their hands must be within arm's reach of the load.
Tag lines are ropes or straps for controlling load orientation during crane travel (long-distance phase). Rigging sticks are rigid tools for precise final positioning and placement (the last metres of a lift). Both tools have specific roles; they are complementary, not interchangeable. The rigging stick performs where the tag line cannot: at close range, with precision.
Colour gives operational information to crane operators, lift supervisors and adjacent workers about where the rigging stick and its user are positioned relative to the load. RiggerSafe® is available in Safety Yellow, Industrial Blue and Neon Green—each chosen for visibility in different operational environments.
Yes—the shorter lengths (21", 24") are specifically suited to confined space lifting operations where the full standoff distance of a longer tool is not achievable. The priority remains the same: maximum achievable separation between hands and load.
Oil and gas, offshore drilling, shipbuilding, construction, steel fabrication, warehousing, manufacturing, wind energy, mining and ports and marine. The specific tool terminology varies by sector, but the functional need is present wherever loads are suspended and guided by hand workers.
A rigging stick is more accurately classified as a hand tool or engineering control rather than PPE. It eliminates the hand-to-load contact rather than protecting the hand during contact. Within the hierarchy of controls, it sits above PPE—as a preferred engineering intervention that reduces exposure rather than managing the consequences of it.
The V-head is the contact end of the rigging stick—a V-profiled head that self-locates against round, square and flat load surfaces, maintaining engagement and preventing lateral slip during force application. Rubber inserts within the V-head provide controlled friction and absorb vibration feedback from the load.
Neon Green (fluorescent lime green) offers exceptional visibility in bright outdoor, offshore deck and night-operation environments where Safety Yellow can be less distinct. In darker, enclosed or underground environments, Safety Yellow typically provides superior contrast. Both exceed standard visibility requirements for industrial safety equipment.
Yes—and this is one of the most technically demanding applications. During final blade alignment, the rigging stick allows technicians to make precise corrections to blade pitch and lateral position without creating any contact between human hands and the blade surface or hub structure, preventing both injury and component damage.
Pinch points are locations where a load can close against another surface—a landing point, a structural member, adjacent equipment—creating a crushing or shearing hazard for any body part caught between them. The forces involved even at slow settling velocities can cause severe crush injuries. Rigging sticks keep hands out of these zones.
RiggerSafe® can be specified by length (21"–96"), colour (Safety Yellow, Industrial Blue, Neon Green) and quantity. For offshore or major project procurement, contact HSF via riggersafe.com for technical specifications, volume pricing and project supply arrangements.
HSF RiggerSafe® helps workers guide, push, pull and position suspended loads without placing their hands directly on the load. Designed for riggers. Built for offshore and industrial environments. Available in 9 lengths and 3 high-visibility colours.