Fact-checked by Grok 2 weeks ago

Caster

A caster is an undriven mounted on a or frame, typically attached to the underside of furniture, carts, industrial , or medical devices to enable smooth and directional movement over surfaces. These devices differ from fixed wheels by incorporating a mechanism in many designs, allowing the wheel to rotate 360 degrees for enhanced maneuverability. Casters are essential in various settings, supporting loads from a few pounds in office chairs to thousands of pounds in trolleys, and are engineered for factors like protection, durability, and environmental resistance. The origins of casters trace back to ancient civilizations, where basic wheeled mechanisms facilitated transport, but the first U.S. patent for a furniture caster was granted on June 30, 1838, to the Blake Brothers of New Haven, Connecticut, under U.S. Patent No. 821. An improvement in furniture casters was patented on March 14, 1876, by inventor David A. Fisher, Jr., of Washington, D.C., under U.S. Patent No. 174,794. The swivel caster mechanism, enabling omnidirectional movement, saw significant refinement with the 1920 patent by Seibert W. Chesnutt (U.S. Patent No. 1,341,630). Over the subsequent decades, casters evolved from wooden and metal constructions to incorporate rubber and synthetic materials, driven by industrial demands during the late 19th and 20th centuries, expanding their use beyond households to factories, hospitals, and transportation. As of 2025, advancements in materials like polyurethane and precision engineering, including sensor-integrated "smart" casters, have made them integral to global logistics and accessibility solutions. Casters are categorized by mount type, swivel capability, and wheel material to suit diverse applications. Common mount types include plate mounts for bolting to flat surfaces and mounts for insertion into legs, such as on chairs or carts. casters provide omnidirectional movement, while rigid casters offer straight-line stability, and hybrid designs like kingpinless swivels enhance durability for heavy loads. Wheel materials vary widely: rubber for quiet, floor-protective rolling on hard surfaces; for high-capacity, abrasion-resistant performance; for lightweight, non-marking use; and or for extreme industrial environments. In medical and ergonomic contexts, soft-tread casters reduce noise and vibration, while pneumatic variants absorb shocks on uneven terrain. Load capacities range from 50 pounds for office furniture to over 10,000 pounds per caster in , with brakes and ergonomic features further customizing functionality.

Definition and History

Definition

A caster is an undriven or cluster of wheels mounted on a , , or that enables around a vertical , providing to attached objects such as furniture, carts, or . This assembly facilitates low-friction rolling movement of loads across flat surfaces, typically employed in sets of four or more to support stability and even weight distribution. Unlike fixed wheels or rollers, which constrain motion to a single direction, casters incorporate a that permits and easier around obstacles. The term "caster" is the preferred spelling in , while "castor" is the variant used in , both referring to the same device despite the regional differences.

History

The earliest known use of wheeled vehicles dates back to around 3500 BCE in , where fixed wheels were employed on carts and sledges for transporting goods, though these lacked the swiveling mechanism of modern casters. Rudimentary fixed casters, constructed from wood and metal, appeared in for material handling, but they did not pivot or steer independently. The development of modern casters began in the 19th century amid the Industrial Revolution's demand for efficient mobility solutions. The first U.S. patent for a furniture caster was granted to the Blake Brothers—Philo S. Blake, Eli W. Blake, and John A. Blake—on June 30, 1838 (U.S. Patent No. 821), describing an improved design with a metal roller and for secure attachment to bedsteads and other furniture. This innovation facilitated easier movement of heavy wooden pieces without excessive wear on floors. A pivotal advancement came with the swivel caster, patented by David A. Fisher on March 14, 1876 (U.S. Patent No. 174794), which introduced a spring-loaded shank allowing 360-degree rotation for smoother navigation around obstacles, particularly in furniture applications. Mass production of casters surged during the late 19th century , enabling widespread industrial use for shifting machinery and materials in factories. In the 1880s, the introduction of rubber wheels enhanced quiet operation and floor protection, replacing noisier iron alternatives and expanding casters' versatility in both domestic and commercial settings. Post-World War II innovations further transformed caster design, with emerging in the 1950s as a durable synthetic alternative to , offering superior load-bearing capacity and resistance to wear for heavy-duty applications. By the late , casters shifted from basic wood and metal constructions to specialized industrial variants, incorporating ergonomic features like reduced to minimize user strain in warehouses and healthcare environments.

Components

Wheel

The wheel is the primary rolling component of a caster, providing direct contact with the floor or surface to enable smooth mobility while supporting the load and absorbing shocks from uneven or impacts. Caster wheels are constructed from various materials tailored to specific applications, each offering distinct properties in traction, , , and floor protection. Rubber wheels excel in traction and due to their elasticity, which absorbs vibrations for quieter operation, though they have limited under heavy loads. wheels provide superior and abrasion resistance on hard floors, maintaining non-marking properties to prevent surface damage. support heavy loads with exceptional wear resistance but generate more noise and risk floor marking due to their hardness. Pneumatic wheels, filled with air, offer cushioning and shock absorption ideal for uneven , enhancing ride comfort in outdoor or rough environments. Tread patterns on caster wheels influence and , with smooth treads designed for low friction and reduced on even surfaces like tiles or wood, often featuring shallow patterns such as wavy lines or dots to minimize scratches. In contrast, treaded patterns with deeper grooves or serrations provide enhanced and debris clearance on rough surfaces like or , improving traction in demanding conditions. Wheel material hardness is measured using the Shore A durometer scale, particularly for softer options like rubber, where ratings of 70-80 indicate a balance of flexibility for shock absorption and firmness for load-bearing without excessive deformation. Softer wheels, such as those with lower Shore A ratings in rubber or , better protect floors by distributing pressure evenly and avoiding marks on sensitive surfaces like or .

Frame and Mounting

The frame of a caster, often referred to as the or rig, consists of a metal that cradles the and secures the , providing structural support and stability. Typically constructed from stamped or forged , the features two legs connected to a top mounting component, with variations in height and shape to accommodate different diameters and ensure balanced load handling. For instance, taller frames are used for larger wheels to maintain clearance, while wider leg spacing enhances lateral stability under dynamic loads. Mounting types for casters primarily include top-plate and configurations, each suited to specific attachment needs. Top-plate mounting involves bolting a flat, rectangular or square plate—commonly measuring 2-3/8 inches by 3-5/8 inches for light-duty applications—to the underside of equipment or furniture, offering broad surface area for secure fixation on flat surfaces. mounting, by contrast, uses a protruding cylindrical or tapered inserted into pre-existing sockets, such as those in furniture legs, for a streamlined integration without additional hardware. Expandable variants feature an adapter that tightens via a to grip the interior of hollow tubes, enabling retrofitting in round or square leg structures without drilling or . Frame geometry plays a critical role in load distribution by influencing how weight is transferred from the mounted object to the , with optimal designs minimizing stress concentrations and preventing deformation. In dual-wheel frames, two wheels mounted side-by-side within an extended structure divide the load more evenly, increasing overall —often up to twice that of single-wheel equivalents—and improving on uneven surfaces through rolling action. To enhance longevity, caster frames commonly receive corrosion-resistant coatings such as , which forms a sacrificial barrier that corrodes preferentially to protect the underlying from and oxidation. Zinc plating, available in thicknesses from 0.0002 to 0.002 inches, provides protection ranging from 75 to 250 hours in salt spray tests, depending on the finish type, making it ideal for indoor and mildly corrosive environments.

Swivel and Kingpin Mechanisms

The action in casters enables 360-degree rotation of the wheel assembly relative to the mounting, providing enhanced maneuverability compared to rigid casters that maintain a fixed direction. This rotational freedom allows the caster to pivot smoothly around obstacles and align with the direction of travel, reducing effort in pushing or pulling loads. In traditional kingpin designs, a central , bolt, or threaded stem serves as the , connecting the (or ) to the mounting plate and enabling pivoting motion. The integrates with upper and lower ball races, along with and load bearings, to support the assembly while transmitting forces during . This setup centers the swivel action on the axis, allowing adjustment of resistance by tightening a slotted to compensate for wear. Kingpinless alternatives replace the central pin with dual ball-race systems, where the top plate features an inner and the yoke base an outer , separated by precision ball bearings for load distribution. These designs spread forces across a larger circumferential area—typically a 2-inch diameter versus the kingpin's 5/8-inch—reducing concentrations and in demanding applications like high-speed or rough surfaces. By eliminating the kingpin, they enhance durability without the risk of shearing under thrust loads. Friction in swivel mechanisms is minimized through bearings such as precision ball bearings, which provide low-resistance rotation by maintaining separation between moving surfaces. These bearings, often sealed and pre-lubricated, support both radial and axial loads during pivoting, ensuring efficient energy transfer. Proper lubrication, typically via grease fittings on the swivel section, is essential to sustain this performance; recommendations include application every six months for standard use or monthly in continuous operations to prevent binding and extend component life. Periodic greasing also facilitates cleaning and helps mitigate corrosion in the raceways.

Types

Rigid Casters

Rigid casters, also referred to as fixed casters, consist of a wheel mounted on a fixed axle within rigid forks that prevent any swiveling motion, thereby limiting the wheel to forward and backward travel in a straight line. This straightforward construction eliminates the need for swivel mechanisms, ball bearings, or other complex components typically found in more maneuverable caster types, resulting in a robust and durable assembly attached via a base plate or stem. The primary advantages of rigid casters stem from their inherent , which allows them to support higher load capacities compared to designs with swivel capabilities; for instance, many models are rated for up to 1,000 pounds per caster, with some heavy-duty variants reaching 1,500 pounds. This fixed orientation also makes them less susceptible to —a side-to-side —or unintended drift, ensuring smoother and more predictable tracking during straight-line transport. In practice, rigid casters are commonly deployed in pairs at the front or rear of carts and dollies to provide directional control, particularly in environments requiring precise straight-line movement such as aisles or lines. They are especially prevalent in heavy-duty setups like dollies and flatbed carts, where stability under load is paramount over flexibility.

Swivel Casters

Swivel casters are designed to provide rotational freedom, allowing the to horizontally for enhanced maneuverability. The core feature of swivel casters is their ability to achieve full 360-degree rotation, typically facilitated by a —a central that secures the to the mounting plate—or a raceway system of bearings that enables smooth ing around the vertical axis. This mechanism contrasts with fixed-direction casters by permitting omnidirectional turning with minimal effort, making them ideal for applications requiring frequent directional changes. The first for a swivel caster was granted in 1876 to David A. Fisher, marking a significant advancement in furniture mobility that laid the foundation for modern designs. Variations in swivel caster designs address specific needs for control and stability. Directional-lock swivels incorporate a mechanism to restrict rotation to a fixed forward position, converting the caster into a rigid-like setup for straight-line travel while retaining the option for full swivel when unlocked. In contrast, free-swiveling models offer unrestricted 360-degree movement without locks. Self-centering designs, often featuring a spring-loaded or automatic alignment rig, automatically return the wheel to a neutral position when the load is lifted or during straight-line motion, promoting stability and reducing drift. These variations enhance versatility, with self-centering types particularly useful in dynamic environments. Swivel casters have load capacities ranging from light-duty applications (around 100 pounds) to heavy-duty models exceeding 2,000 pounds per caster, depending on wheel material, size, and construction. They perform well at higher speeds—up to 3 in many configurations—without excessive wobble, thanks to precision bearings in the or raceway that minimize and . For optimal performance, load ratings should account for dynamic forces, with manufacturers recommending by 25-50% for continuous motion. In ergonomic applications, swivel casters are widely used in office chairs to facilitate smooth, effortless , allowing users to reposition without standing or straining, which reduces physical fatigue and supports better . This design promotes workplace efficiency by enabling quick access to peripherals while minimizing floor wear through soft-tread wheels. Swivel casters are often paired with rigid casters on carts to balance turning agility with straight-line tracking.

Braking and Locking Casters

Braking and locking casters incorporate safety s designed to immobilize s or entire caster assemblies, preventing unintended movement in various applications. These features are critical for maintaining , particularly on uneven or inclined surfaces, by applying or mechanical restraints to halt and action. Common braking types include brakes, which use pads or to grip the wheel tread and stop ; locks, which secure the to prevent directional changes; and total locks, which simultaneously engage both and components for complete immobilization. The mechanisms for activating these typically involve cam-operated levers or foot pedals, allowing users to engage or release the lock with minimal effort. For instance, foot-activated poly locks employ a pedal that cams a element against the , while double-lock systems provide enhanced by coordinating dual actions for precise positioning. These designs often integrate with swivel bases to ensure reliable performance without compromising mobility when unlocked. In practice, braking and locking casters are essential for use cases such as navigating sloped surfaces, where they prevent rollback, or in stationary setups like beds, ensuring during procedures. Compliance with standards like ANSI/ICWM-2018 requires brakes to demonstrate holding forces equivalent to at least 20% of the rated load capacity for positive locking mechanisms in institutional and , with up to 10,000 cycles to verify .

Kingpinless Casters

Kingpinless casters represent an advanced caster design that eliminates the traditional central , replacing it with a precision-machined raceway system incorporating dual ball-race or thrust bearings to distribute loads evenly across the top plate and base. This configuration, where the top and bottom raceways are often integrally forged or welded for enhanced structural integrity, allows the swivel section to handle significant forces without a prone to or loosening. The primary advantages of kingpinless casters stem from their superior shock resistance and durability in abusive environments, such as high-impact settings, where they exhibit less compared to traditional designs, leading to a longer overall service life and reduced maintenance requirements. By distributing loads over a larger area via the raceway, these casters provide smoother swiveling action and can support capacities ranging from 1,000 pounds to over 10,000 pounds per caster, making them suitable for heavy-duty applications that would compromise standard swivel mechanisms. In construction, kingpinless casters feature reinforced, hardened raceways—typically precision-machined to a minimum of 53 Rockwell C for optimal performance—housing high-strength ball bearings that ensure reliable rotation under extreme loads exceeding 1,000 pounds. These components, often available in materials like steel or stainless steel for corrosion resistance, connect the top plate directly to the yoke base, minimizing parts and enhancing stability during operation. This design was pioneered in the to address industrial demands for more robust mobility solutions, with early innovations like Caster's "Economic" model emphasizing strength and reliability, later evolving into the widely adopted ball-raceway variants that prevent failures associated with shear. Compared to standard swivel casters detailed in related mechanisms, kingpinless models offer greater resilience in high-shock scenarios without altering core directional control functions.

Industrial Casters

Industrial casters are specialized mobility solutions engineered for rigorous heavy , warehousing, and operations, where they must withstand extreme loads, harsh conditions, and frequent use while ensuring operational efficiency. Unlike lighter-duty variants, these casters emphasize robust to support massive and materials in environments demanding high reliability and minimal downtime. These casters are designed for individual load capacities exceeding 1,000 pounds, with common configurations using sets of four or more to handle total equipment weights over 10,000 pounds, such as in or machinery bases. Forged steel construction forms the backbone of many casters, providing exceptional tensile strength, , and longevity under continuous heavy-duty service, often with precision-machined components for smooth operation. High-temperature is a critical feature, allowing operation in environments up to 400°F, as seen in applications involving ovens or hot processes. For hazardous areas, anti-spark wheels constructed from non-ferrous materials like or specialized alloys prevent ignition sources, ensuring safety in explosive atmospheres such as chemical plants or munitions handling. Compliance with OSHA safety guidelines is standard for industrial casters, focusing on features like secure locking mechanisms and structural integrity to prevent accidents; many models exceed ANSI/ITSDF ICWM performance criteria for and durability. V-groove wheels, typically made with a 90-degree groove angle, enable precise guidance along iron tracks or rails, reducing lateral movement and enhancing control in linear transport systems like conveyor-fed assembly setups. Pneumatic options, featuring air-filled tires, provide superior shock absorption and traction for outdoor rough , making them suitable for sites or yard where uneven surfaces prevail. Some designs incorporate kingpinless mechanisms to distribute loads more evenly and resist deformation under extreme stresses.

Design Considerations

Wheel Dimensions and Configurations

Wheel dimensions in casters, particularly diameter and width, significantly influence rolling efficiency, obstacle navigation, and overall stability. Larger wheel diameters, commonly ranging from 4 to 8 inches, facilitate superior obstacle clearance and smoother rolling over uneven surfaces such as cracks, thresholds, or debris, by increasing the angle of approach and reducing the effective height of barriers relative to the wheel size. In contrast, smaller diameters under 4 inches are preferred for low-profile applications like furniture or tight-space equipment, where minimal ground clearance is required to maintain a low center of gravity and fit under low-clearance areas. Wheel width and tread further optimize by affecting load distribution and floor interaction. Wider treads, often 2 inches or more, enhance on soft or irregular floors like or grass by spreading the contact area, which minimizes pressure points and prevents sinking or uneven wear. or dual-wheel configurations, where two wheels are mounted side-by-side on a single caster, provide even greater load spreading without increasing the overall height, making them ideal for heavy loads on yielding surfaces to avoid floor damage and maintain mobility. Caster configurations typically involve strategic arrangements of wheel types to balance directional control and ease of movement. A common setup for carts and platforms uses two rigid casters at the rear for straight-line stability and load support, paired with two swivel casters at the front for enhanced maneuverability during turns and navigation. This combination reduces the force needed for starting and steering while distributing weight evenly across all wheels. To ensure practical usability, caster dimensions must account for environmental constraints such as door thresholds and clearance requirements. Minimum overall caster heights, often determined by wheel diameter plus (e.g., 3-5 inches for standard setups), are selected to allow equipment to pass under standard door clearances of 80 inches while providing sufficient ground clearance to surmount typical sills up to 1/2 inch high. Larger diameters in the 4-8 inch range excel here, enabling casters to roll over common obstacles like door jambs without excessive force or instability.

Materials and Load Capacity

Caster materials play a pivotal role in determining load , with selections tailored to balance strength, , and environmental . Steel frames, known for their robustness, enable casters to handle capacities exceeding 5,000 pounds in heavy-duty industrial settings, where high tensile strength supports extreme loads without deformation. In contrast, wheels offer excellent chemical to oils, solvents, and corrosive agents, making them ideal for applications in or environments while maintaining capacities up to several thousand pounds depending on . Polyurethane wheels, particularly those with a 95A durometer , provide a versatile option for medium-duty use, supporting loads of 300 to 500 pounds per caster with good floor protection and abrasion . As of 2025, advancements include lightweight composite materials that maintain high load capacities while reducing overall weight. Load ratings differentiate between static loads, which measure the maximum stationary weight a caster can bear (including cart and contents), and dynamic loads, which factor in motion, impacts, and uneven weight distribution for real-world mobility. Capacities are typically rated for low-speed operations up to 3 ; for higher speeds, is applied—often by 50% or more—to account for increased and generation. These ratings incorporate safety margins, commonly a 33% addition to total load (equivalent to a 1.5:1 factor) or up to 3:1 in demanding scenarios, ensuring reliability under variable conditions. Basic load capacity calculations rely on material strength multiplied by geometric factors, such as frame thickness and configuration, to derive the maximum safe load per caster. The generally takes the form: required per caster = (total weight × safety factor) / number of casters, where the safety factor adjusts for and assumes not all casters bear equal load. Testing adheres to standards like ANSI ICWM 2018, which verifies performance at rated loads through impact, fatigue, and endurance trials to confirm structural integrity. dimensions further influence by distributing pressure, as explored in the Wheel Dimensions and Configurations section.

Ergonomic Features

Ergonomic casters incorporate height adjustability through threaded stems, enabling precise leveling of furniture and equipment on uneven surfaces to promote optimal user and minimize back during prolonged use. This feature allows for fine-tuning of caster positioning, ensuring even load distribution that reduces the physical effort needed to maintain balance and alignment, thereby lowering the risk of musculoskeletal disorders. Soft-rolling materials like and thermoplastic rubber (TPR) treads are essential for low-noise operation and floor protection, particularly in settings where quiet mobility supports patient recovery and staff focus. These treads absorb shocks, prevent scuffing on sensitive surfaces such as or , and facilitate smooth movement without generating disruptive sounds, enhancing overall user comfort in noise-sensitive environments. As of 2025, developments include IoT-enabled casters for usage and predicting maintenance to further improve and . Handle integrations in push/pull caster designs optimize force application for maneuvering heavy items, with grips positioned at height—approximately 36 to 46 inches depending on stature—to align with natural and reduce upper exertion. These configurations comply with OSHA guidelines recommending initial forces below 50 pounds to initiate motion, preventing overexertion and repetitive injuries during cart or handling. Many such casters also feature integrated braking for added during stationary periods.

Performance and Issues

Caster Flutter

Caster flutter, commonly referred to as caster , is a self-sustained oscillatory motion in swivel casters that manifests as rapid wobbling or , typically occurring when the caster experiences certain forward speeds. This arises from the between the caster's properties and the of motion, leading to heavy lateral s that can compromise and cause uneven wear on components. The study of caster flutter originated in the 1940s, initially focused on aircraft landing gear where shimmy in castered tail-wheels and nose gears posed safety risks during taxiing and takeoff. Early theoretical and experimental work, such as that by Kantrowitz in 1940, examined kinematic aspects of shimmy in wheeled systems, laying the foundation for understanding oscillations in caster-like configurations. Subsequent research extended these principles to ground vehicles and industrial casters, recognizing flutter as a resonance-driven instability. Key causes of caster flutter include dynamic imbalances triggered by forward speed exceeding a —often around 2-3 mph for small-diameter wheels—uneven load distribution, and degraded components like worn bearings that reduce . Flutter is exacerbated when the caster's natural frequency aligns with the wheel frequency, amplified by frictional forces at the and cornering at the wheel-floor contact point. In swivel casters, this can lead to self-excitation, where small perturbations grow into sustained vibrations due to insufficient energy dissipation. Prevention strategies emphasize design modifications to disrupt and enhance , such as incorporating hydraulic or dampers at the swivel joint to absorb oscillatory energy. Selecting larger diameters increases the threshold for onset by altering the geometric and inertial properties, while adjusting kingpin —through tighter tolerances or added resistance—stabilizes the assembly at moderate velocities. Operational limits, such as restricting speeds to under 4 , are also effective, particularly for light-duty applications where high speeds are unnecessary. Advanced approaches include active systems with actuators to modulate dynamically, though passive methods remain predominant in standard caster designs.

Stability and Maneuverability

The stability of casters is primarily influenced by the trail length, defined as the horizontal distance from the axis to the wheel's ground contact point, which generates a restoring to promote self-righting and alignment during straight-line movement. This geometric feature ensures the caster naturally orients the forward under load, reducing the risk of misalignment and enhancing overall directional control in multi-caster assemblies. Maneuverability in casters is affected by swivel lag, the resistance encountered when initiating a turn, which arises from the required to rotate the swivel assembly to the direction of travel. Optimal caster spacing for carts, typically 24 to 48 inches between wheels, strikes a balance between this turning ease and load stability, preventing excessive wobble while allowing fluid navigation. Floor type significantly impacts traction and thus both stability and maneuverability; for instance, polyurethane wheels provide reliable grip on surfaces to minimize slippage, whereas rubber or rubber variants offer better performance on smooth or delicate floors by reducing without sacrificing control. In multi-caster configurations, such as the common setup of two casters at the front and two rigid at the rear, dynamics like load distribution and wheel interaction determine handling, with even weight allocation across the set promoting smoother turns and reduced effort. Kingpin offset designs, by extending the swivel lead, can reduce required push effort by up to 22% through lowered swiveling , facilitating easier operation in demanding environments. For wheelchair casters, static is rigorously evaluated under ISO 7176-1, which tests by measuring tipping angles on inclines to ensure safe performance. Maneuverability is influenced by such factors.

Applications

Household and Furniture Use

Casters play a vital role in and furniture applications by enabling effortless mobility for everyday items, enhancing convenience in domestic settings. They are commonly attached to sofa legs for simplified repositioning during or room reconfiguration, to frames for adjusting sleeping arrangements, and to desk chairs to allow smooth navigation in offices or living spaces. This facilitates quick adaptations to changing needs, such as accommodating guests or optimizing space in smaller . Design preferences for household casters emphasize both functionality and visual appeal, with decorative finishes like or simulated often selected to complement traditional or styles. Quiet rubber wheels are favored for their ability to roll silently across , , or carpeted floors while minimizing scratches and marks, ensuring protection for sensitive home surfaces. These features make casters suitable for light-duty use, typically supporting weights up to 100 pounds per caster without compromising aesthetics. Installation methods for household casters prioritize simplicity and security, with stem-mounted types commonly used for tubular or hollow furniture legs, where the stem is inserted into a pre-drilled or for a firm . Twin-wheel configurations provide enhanced and smoother movement on uneven floors, ideal for items like chairs or small cabinets under 100 pounds, reducing wobble during use. Proper ensures longevity and prevents damage to furniture or floors. In the context of home accessibility, casters support modifications by allowing easy rearrangement of furniture to create unobstructed pathways, aligning with guidelines for wheelchair-friendly living spaces in residential environments. Their use has grown with the evolution of modular and adaptable home designs since the mid-20th century, promoting flexible interiors that accommodate diverse needs.

Industrial and Commercial Use

Industrial casters are integral to in , , and environments, where they support equipment subjected to frequent use and heavy loads. In jacks, robust casters enable efficient transport of goods across floors, minimizing and enhancing maneuverability for daily operations. Similarly, casters integrated into conveyor systems facilitate automated movement of items in centers, ensuring seamless flow in high-volume settings. For applications, such as carts, durable casters withstand high-traffic conditions in stores, providing smooth, quiet rolling to support customer mobility without frequent replacements. Recent advancements as of 2025 include IoT-enabled smart casters for tracking in . Specialized adaptations enhance caster performance in demanding sectors. Corrosion-resistant stainless steel casters, often NSF-certified, are essential in facilities to prevent and withstand exposure to moisture, chemicals, and high temperatures up to 194°F. In , conductive casters with low electrical resistance dissipate to the floor, protecting sensitive components from during assembly and transport. These casters are engineered for substantial scale in operations, with heavy-duty models supporting loads exceeding 5,000 pounds per set in environments to handle bulky without structural failure. Maintenance is streamlined through replaceable components, such as wheels and bearings, allowing quick swaps during routine inspections to extend service life and reduce downtime. The global casters market reached approximately $8.3 billion in 2023 and grew to about $9.1 billion by 2024, driven by demand in industrial and sectors for reliable solutions. Compliance with the EU 2006/42/EC ensures these casters meet essential health and safety standards for load-bearing integrity and risk mitigation in European markets.

Medical and Accessibility Applications

Casters play a critical role in medical and accessibility applications, particularly in beds, wheelchairs, and stretchers, where they enable smooth while minimizing risks in healthcare environments. These devices facilitate the easy repositioning of patients and equipment, reducing physical strain on caregivers and enhancing overall safety during transport. For instance, in wheelchairs, casters ensure stable navigation over varied surfaces, supporting for users with disabilities. Key features of medical casters include coatings that inhibit and help prevent hospital-acquired infections, often integrated into materials like or rubber for durability and hygiene. Low-push-force designs incorporate precision bearings and low to ease operation, particularly beneficial for healthcare workers handling heavy loads over long shifts. Additionally, locking mechanisms on these casters secure equipment and mobility aids, preventing unintended movement and ensuring during procedures or rest. Materials used in medical casters must comply with FDA regulations for and resistance to from cleaning agents. For wheelchairs, the ISO 7176-32 standard outlines durability testing protocols for caster assemblies, including resistance, , and tests to simulate real-world use and prevent failures that could compromise user safety. Casters became pivotal during the 1970s rehabilitation technology boom, coinciding with the ultralight wheelchair revolution that emphasized customizable, solutions for enhanced .

References

  1. [1]
    CASTER | definition in the Cambridge English Dictionary
    a small wheel, usually one of a set, that is attached to the bottom of a piece of furniture so that it can be moved easily.
  2. [2]
    CASTER Definition & Meaning - Merriam-Webster
    1. One that casts; especially : a machine that casts type 2 or castor ˈka-stər a : a usually silver table vessel with a perforated top for sprinkling a ...
  3. [3]
    CASTER Definition & Meaning | Dictionary.com
    a person or thing that casts. a small wheel on a swivel, set under a piece of furniture, a machine, etc., to facilitate moving it.
  4. [4]
    Caster Definition & Meaning | Britannica Dictionary
    CASTER meaning: a small wheel attached to the bottom of something (such as a piece of furniture) to make it easier to move.<|control11|><|separator|>
  5. [5]
    Types of Casters & Wheel Guide - Grainger
    Apr 7, 2021 · Maneuverability: Rigid Casters, Swivel Casters, Kingpinless Swivel Casters. When considering maneuverability, there are two basic kinds of ...
  6. [6]
    US174794A - Improvement in furniture-casters - Google Patents
    D. A. FISHER, Jr. FURNITURE CASTER. No 1'74 794 4 Patented Marchl, 1876. flvezzzar N.FETERS, PHOTQLITMQGRAPHER, WASHINGTON B510. UNITED STATES PATENT OFFIcE,.
  7. [7]
    A Short History of Casters | Monroe Engineering
    Jan 5, 2021 · Some say they were part of material handling as long ago as Ancient Egypt, others point to the patent applied for by David Fisher in 1876. I ...
  8. [8]
    https://patents.google.com/patent/US1341630A/en
  9. [9]
    https://monroeengineering.com/blog/a-short-history-of-casters/
  10. [10]
    Exploring Caster Wheel Materials: A Comprehensive Guide.
    ### Summary of Caster Wheel Materials and Properties
  11. [11]
    None
    ### Definition and Key Functional Aspects of "Caster" from ANSI/ICWM-2012
  12. [12]
    https://www.zambus.com/blog/exploring-caster-wheel-materials-a-comprehensive-guide/
  13. [13]
    CASTER | English meaning - Cambridge Dictionary
    CASTER definition: 1. US spelling of castor 2. a small wheel, usually one of a set, that is attached to the bottom of…. Learn more.
  14. [14]
    A Revolutionary Invention: Tracing the Origins of Ancient Wheels
    The oldest known wheel found in an archaeological excavation is from Mesopotamia, and dates to around 3500 BC. This period was known as the Bronze Age, which is ...
  15. [15]
    Furniture Caster Patented – Today in History: June 30
    On June 30, 1838, the US patent No. 821—the first for a furniture caster—was granted to the Blake Brothers of New Haven. The brothers, Eli Whitney Blake, Philos ...<|control11|><|separator|>
  16. [16]
    US821A - blake - Google Patents
    - **Title:** Mode of Constructing Casters and Applying Them to Bedsteads
  17. [17]
    Brief Caster and Wheel History Through the Ages
    The concept of casters and wheels dates back to ancient civilizations. The earliest known evidence of wheel use comes from the Indus Valley Civilization, which ...
  18. [18]
    History Of Polyurethane - 360 Castors & Wheels
    In 1940, the first polyurethane elastomers were produced. These compounds gave a millable gum which could be used as an adequate alternative to rubber. In 1950, ...Missing: post- advancements
  19. [19]
    The Evolution of Casters: From Simple Wheels to Advanced Mobility ...
    Aug 29, 2023 · The earliest record of casters dates back to ancient civilizations. Early examples were basic in design, often crafted from wood and metal and ...<|control11|><|separator|>
  20. [20]
    Pneumatic Caster Wheels
    Feb 21, 2025 · Pneumatic tires are preferred in industrial and warehouse settings because of their high load capacities and shock-absorption qualities.Missing: properties | Show results with:properties
  21. [21]
    How to choose the right rubber caster tread pattern for different ...
    Aug 11, 2025 · The choice of rubber caster tread pattern should be based on key factors such as floor type, load size, operating environment (e.g., wet/dry), ...
  22. [22]
    https://www.tengtrolley.com/info/how-to-choose-the-right-rubber-caster-tread-pa-103081402.html
  23. [23]
    A Quick Reference Guide to the Various Parts of an Industrial Caster.
    Feb 21, 2025 · It comes with all the various mounting holes necessary for rivets (kingpins), king bolts, and more. If there is a swivel, the top plate will ...<|separator|>
  24. [24]
    Top Plate Sizes | Blog - The Caster Guy
    Jan 27, 2016 · Common top plate sizes include 1-7/8” x 2-9/16” (light duty), 2-3/8″ x 3-5/8″ (light duty), and 4” x 4-1/2” (medium/heavy duty).
  25. [25]
    Select the Right Top Plate Casters for Industrial Applicat
    Feb 21, 2025 · Casters with a mounting plate (top plate) offer more surface area than a stem caster, which means better weight distribution.Missing: light | Show results with:light
  26. [26]
    Types of Stem-Mount Caster Rigs
    **Summary of Stem-Mount Caster Types:**
  27. [27]
    Maxi-Duty Dual Wheel Casters | Low Profile
    Dual Wheel Casters also improve stability and swivel more easily than wider-face single wheels because differential action reduces the “scrubbing” effect of ...Missing: distribution frame
  28. [28]
    Why Is Zinc Plating So Popular? - RWM Casters
    Zinc plating is popular for its long-lasting corrosion prevention, cost-effectiveness, and the fact that it doesn't need to be 100% continuous to prevent rust.Missing: frame | Show results with:frame
  29. [29]
    Pros and Cons of Kingpin Versus Kingpinless Industrial Cas
    Feb 21, 2025 · The kingpin's design caster swivel section has only three components: a top plate with a ball race, a yoke base (bottom race) with a ball race, ...Missing: mechanism | Show results with:mechanism
  30. [30]
    Traditional Kingpin vs Kingpinless Swivel Casters
    The kingpin, which is generally a bolt or rivet, holds the other five components together allowing the caster to swivel. The swivel action is centered about the ...Missing: mechanism engineering
  31. [31]
    14 Commonly Used Caster Bearing Types | Caster Wheel Bearing - Caster Central
    ### Summary of Caster Bearing Types in Swivel Mechanisms
  32. [32]
    Maximizing caster bearing life -when to grease
    Feb 21, 2025 · In a working environment that requires using the casters 18-24 hours per day, 7 days a week, you will want to grease at least once monthly. · In ...
  33. [33]
    Maintenance-Free Casters: Expectations and Advantages
    Feb 21, 2025 · Generally speaking, traditional casters need to be lubricated once every six months in order to keep the bearings spinning freely and loads ...
  34. [34]
    Important Facts That You Should Know About Rigid Casters | Caster City
    ### Summary of Rigid Casters from https://castercity.com/important-facts-that-you-should-know-about-rigid-casters/
  35. [35]
    Do I Need Rigid or Swivel Wheel Casters? - Douglas Equipment
    Rigid casters are stronger than swivel casters, and can handle higher weight capacities. When using all rigid casters, it's important to make sure they line up ...
  36. [36]
    Rigid Caster vs. Swivel Caster: Differences & Applications - Caster Central
    ### Summary of Rigid Caster Construction and Advantages
  37. [37]
    https://castercentral.com/blogs/blog/rigid-caster-vs-swivel-caster
  38. [38]
    Swivel Casters: Should You Choose Kingpin or Kingpinless? | Blog
    Feb 14, 2022 · Kingpin casters are swivel casters that feature a kingpin. They leverage a pin-based assembly to achieve a 360-degree range of rotation.
  39. [39]
    https://thecasterguy.com/2022/02/14/swivel-casters-should-you-choose-kingpin-or-kingpinless/
  40. [40]
    4" Heavy Duty Swivel Automatic Caster with Rubber Blue Wheel
    In stock $10 delivery 30-day returnsOur new automatic casters are equipped with a new and unique self-centering rig that swivel back to their original position when lifted off.
  41. [41]
    https://www.penn-elcom.com/us/4in-swivel-automatic-caster-with-rubber-blue-wheel-w9000-auto
  42. [42]
    Caster Load Capacity Information | MSC Industrial Supply Co.
    Caster load capacity is determined by wheel diameter, tread width, and material, and is the maximum load in pounds or kilograms a caster can carry.
  43. [43]
    https://www.mscdirect.com/basicsof/caster-load-capacity
  44. [44]
    The Role of Swivel Casters in Enhancing Workplace Ergonomics
    Jun 26, 2024 · Swivel casters enhance workplace ergonomics by improving mobility, reducing strain and injury, enhancing flexibility, and increasing efficiency ...
  45. [45]
    Understanding Industrial Caster Brake Types
    This article explores four key brake types used in industrial casters—Swivel Lock, Directional Lock, Total Lock, and Floor Lock—detailing their mechanics and ...
  46. [46]
    Types of Caster Brakes and Best Applications for Each. - C
    Feb 21, 2025 · Caster Concepts offers five types of brakes for our casters. The most popular brake is our Poly Lock Brake. This foot-activated brake utilizes a polyurethane ...
  47. [47]
    Casters with Brakes Essential Guide for Safe and Stable Mobility | Blog
    Aug 30, 2025 · There are a few main brake types for caster wheels. Tread brakes press right on the wheel's tread to stop it cold. Side brakes use a lever to ...
  48. [48]
    [PDF] Vocabulary, Performance and Testing Requirements for Casters and ...
    Minimum Brake Holding Force for Institutional and Medical Equipment Casters. Brake Design. Percent of Load Capacity. Tread Compression. 7%. Hub Compression. 4 ...
  49. [49]
    What Are Kingpinless Casters? | Why Are They So Popular?
    Increased lifespan: Kingpinless casters experience less wear and tear, which leads to a longer service life and less replacement costs.Missing: history | Show results with:history
  50. [50]
    The Advantages of Kingpinless Casters in Heavy-Duty Use
    Aug 29, 2025 · Because there are fewer moving parts (and no central kingpin to loosen), kingpinless designs generally outlast traditional swivel casters in the ...Missing: history | Show results with:history
  51. [51]
    https://midwestcaster.com/industry-news-blog/the-advantages-of-kingpinless-casters-in-heavy-duty-use/
  52. [52]
    https://www.accesscasters.com/kingpinless-casters.aspx
  53. [53]
    Kingpinless Casters
    Kingpinless casters are particularly well-suited for any type of power-towed applications where impact and shock loading cause failure.Missing: 1980s | Show results with:1980s
  54. [54]
    The Toughest Casters on the Planet
    ### Summary of Kingpinless Casters and Related Content
  55. [55]
    A Rich History of Innovation - Hamilton Caster
    Hamilton Caster started in 1907, innovated with "The Economic" caster in 1925, expanded product lines in the 50s/60s, and built the Colossus caster in 2015.
  56. [56]
    Kingpin vs. Kingpinless Swivel Caster
    Feb 21, 2025 · They feature a design where a kingpin holds together two sets of bearings, one on top and one on the bottom. A stem, typically a threaded bolt ...
  57. [57]
    Heavy Duty Casters
    Learn more about Hamilton's Heavy Duty Casters featuring load capacities from 200 - 40000 lbs ... caster stands only 6" tall and supports up to 10,000 lbs.
  58. [58]
    https://www.hamiltoncaster.com/Heavy-Duty-Casters
  59. [59]
    81 Series Casters – 10,000 Lbs Max Capacity – 6.25 x 7
    The 81 Series Kingpinless Casters feature a unique single ball race design, which provides a high strength swivel section.Missing: 1980s | Show results with:1980s
  60. [60]
    6"x2" Super Heavy Duty Casters, Kingpinless Crowned ...
    30-day returnsPlate size: Top plate 4"x4-1/2", mounting over heights 7-1/2", One caster wheel Load capacity is 2500lb, set of 4 load Capacity will be 10000lb.It is almost the ...
  61. [61]
    Part Details forW-1240-FST-1-1/4 - Hamilton Caster
    Hamilton Forged Steel Wheel 12" Diameter x 4" Wide x 4 1/4" Hub Length with 1 1/4" Sealed Precision Tapered Roller Bearing (Chicago Rawhide Seals included)
  62. [62]
    91-06309-20-1 6x3 Forged Steel Swivel Caster
    Constructed from hot forged C-1045 steel, this caster features a single ball race design with 7/8 inch diameter load/thrust ball bearings in a precision ...
  63. [63]
    https://www.casterconcepts.com/product/6x3-forged-steel-swivel-caster-10/
  64. [64]
    Spark Proof Casters | 4"–12" Sizes – Non-Ferrous Upto 10,000 lbs
    Premium non-ferrous spark proof casters in single/dual wheels. Engineered for loads up to 10000 lbs, 4"–12" sizes, and speeds up to 5 mph.
  65. [65]
    Spark-Proof Casters: Munitions and Hazardous Handling Safety.
    Aug 6, 2025 · Our Spark-Proof Casters are military-grade safety components designed to terminate ignition risks in the most volatile and regulated ...
  66. [66]
    How to Meet OSHA Standards with Industrial Casters
    23(e)(1)(iv): OSHA requires that wheels or casters under load must support their proportional share of four times the maximum intended load plus the weight of ...Missing: hold strength
  67. [67]
    V-Grooved Iron Wheel Casters | Control Direction
    V-Grooved Iron Wheel Casters are used on industrial carts, assembly fixtures, containers, racks and equipment where it is desirable to control direction, ...Missing: OSHA compliance
  68. [68]
    V-Groove Casters Wheels
    This unique design serves a specific purpose: to guide the caster along an iron track or rail, ensuring precise and stable motion. V groove casters heavy duty ...
  69. [69]
    History - ER Wagner
    1950s. The production of casters & wheels started in 1953 and the entry into enclosure mechanisms in 1956 both products are still supported. ERW purchased ...
  70. [70]
    Pneumatic Casters - Heavy Duty, Swivel & Dual Wheels
    Excellent shock absorbing benefits make these casters ideal for uneven floors and indoor and outdoor rough terrain. They are ideal on aircraft ground ...Overview · Application · Options
  71. [71]
    Extreme Heavy Duty Pneumatic Casters | 12"- 43", 10K - 35K LBS
    Specifications · Industry leading standard load ratings available from 10,000 LBS to 35,000 LBS · Standard speed ranges from 3 mph to 15 mph at rated load.
  72. [72]
    How Wheel Size Affects a Casters Performance on Different Surfaces
    For large diameter wheels, the obstacle will present much less of a barrier. The caster will seem to bridge the obstacle very easily, and keep rolling with ...
  73. [73]
    https://castersolutions.com/caster-wheel-sizes-explained-a-comprehensive-guide/
  74. [74]
    Wide Caster Wheels for Maximum Stability and Load Distribution
    Oct 30, 2025 · Wide caster wheels use an increased tread width to expand the contact patch between wheel and floor. The wider interface lowers point ...
  75. [75]
    Heavy Duty Dual Wheel Casters | Built for Performance
    Dual wheels also distribute weight more evenly, reducing the load per square inch and reducing pressure on the flooring or ground surface. Constructed of our ...Missing: tandem | Show results with:tandem
  76. [76]
    Common Caster Configurations for Carts
    Oct 6, 2022 · Two Rigid, Two Swivel is generally the most popular pattern used. This combination is the most practical and the most economic design, primarily ...
  77. [77]
    https://www.cisco-eagle.com/uploads/RWM-Casters/Cart-Wheel-Patterns.pdf
  78. [78]
    Chapter 4: Entrances, Doors, and Gates - Access Board
    Maneuvering clearances must be free of protrusions the full height (80″ minimum) and changes in level (other than thresholds).
  79. [79]
    https://www.dmehub.net/blog/the-impact-of-caster-size-on-wheelchair-navigation-indoors/
  80. [80]
    https://www.casterhq.com/Albion-IndustrialLine-10x4-94FS10709SBBL-p/94fs10709sbbl.htm
  81. [81]
    Nylast™ Wheels: Capacity: 2,000 - 10,000 lbs. Hamilton Caster
    Nylast® wheels are made of cast nylon, with superior impact strength and resilience, are resistant to moisture and chemicals and offer floor protection.
  82. [82]
    95A Standard Polyurethane Tread - Caster Concepts
    Nov 12, 2021 · Our general-purpose material is good for numerous mainstream applications. It is non-marking with high tear strength and resistance to flat spotting.Missing: 300-500 | Show results with:300-500
  83. [83]
    Caster Wheel Load Capacity: What Factors Are Involved?
    Feb 21, 2025 · Caster weight capacity is a key factor to consider when choosing a caster, and Caster Concepts has heavy-duty casters to handle it.
  84. [84]
    Dynamic & static load capacity - Blickle USA
    The load capacity listed for a wheel or caster is the load capacity which that wheel or caster was capable of withstanding when tested on a rotating bench.Missing: F590 | Show results with:F590
  85. [85]
    How To Determine A Caster's Load Capacity
    To determine the appropriate load capacity for your casters, start by calculating the total weight of the load and the equipment carrying it.
  86. [86]
    https://www.castercity.com/2022/04/03/how-to-determine-a-casters-load-capacity/
  87. [87]
    https://www.shoplinco.com/blog/benefits-of-leveling-casters/
  88. [88]
    Noise-Reducing Casters For Office And Hospital Use
    Aug 19, 2025 · Soft polyurethane treads or thermoplastic rubber (TPR) are commonly used in quiet casters. By absorbing shock and offering a softer roll across ...
  89. [89]
    Medline Floor-Safe Quiet Chair Casters
    Free delivery over $50 90-day returnsQuiet, polyurethane casters reduce scuff marks on floors and help improve patient satisfaction; Designed to fit most nurse station and office chairs
  90. [90]
    https://www.medline.com/product/Medline-FloorSafe-Quiet-Chair-Casters/Z05-PF133400
  91. [91]
    Carts: Push/Pull Guidelines - Safe At Work California
    Nov 30, 2021 · Keep the starting forces to 50 pounds of push force or less. · The rolling force should be less than 40 pounds. · If the exerted force is ...Missing: initiation | Show results with:initiation
  92. [92]
    Industrial Ergonomic Best Practices in Cart Design - Darcor Casters
    Feb 27, 2020 · Cart handles should be placed at about hip height vertically and at about shoulder width horizontally relative to the individual user.Missing: integrations | Show results with:integrations<|separator|>
  93. [93]
    Industrial Ergonomics Regulations around the World - Darcor Casters
    Dec 12, 2017 · ... (OSHA); essentially that the maximum cart pushing force should be about 225 newtons (50 pounds-force). However, these guidelines should be ...Missing: initiation | Show results with:initiation
  94. [94]
    (PDF) Ergonomic solutions for an aging workforce - ResearchGate
    Aug 9, 2025 · This paper provides ergonomic solutions and examines the importance of providing effective workplace ergonomics for the older worker.<|control11|><|separator|>
  95. [95]
    [PDF] Ergonomics and the Aging Workforce | Ergo plus
    Accommodate aging workers by fitting jobs and tasks to the workers' capabilities and limitations. Page 13. Workplace Ergonomics. 1. Prioritize Jobs for.
  96. [96]
    [PDF] Study on Shimmy Vibrations of Wheeled Casters
    Abstract—This paper focuses on the shimmy vibrations of wheeled casters. First, a new test caster is developed to freely change its mechanical properties.Missing: flutter prevention
  97. [97]
    [PDF] A Bibliographic Survey of Automobile and Aircraft Wheel Shimmy
    The problem of' wheel shimmy in airplane landing gears was first encountered in connection with castered tail-wheels and skids. With the introduction of' ...
  98. [98]
    3 Common Causes of Caster Flutter and 5 Ways to Correct It
    Feb 21, 2025 · Important steps to minimize caster flutter. · Increasing swivel lead– A longer swivel lead reduces the forces that push the caster sideways.Missing: prevention equation
  99. [99]
    Caster Technology and the Science of Swivel Offset
    Jun 23, 2015 · Swivel offset is the distance between the king pin and wheel axle center. Increasing it reduces swivel force, improving ergonomics and reducing ...
  100. [100]
    Caster – Geometry Explained - Suspension Secrets
    May 29, 2017 · Positive caster creates a self-aligning torque. This increases the stability of the vehicle in straight line situations, increasingly important ...Missing: length righting
  101. [101]
    https://darcor.com/2015/06/23/caster-technology-and-the-science-of-swivel-offset/
  102. [102]
    [PDF] Designing Manual Carts: Selecting Casters, Reducing Workplace ...
    Best push strength is at waist height! Waist height (USA). • ~ 35.9 inches (small woman). • ~ 45.6 inches (tall man).
  103. [103]
    Ergo-X2 Swivel Casters Reduces Push/Pull Forces
    The Ergo-X2 Caster Series is a premium highly engineered caster designed to reduce the force needed to push or pull carts. The patented swivel caster design ...Missing: effort | Show results with:effort
  104. [104]
    ISO 7176-1:2014 - Wheelchairs — Part 1: Determination of static ...
    CHF 155.00 In stock 2–5 day deliveryISO 7176-1:2014 specifies test methods for determining the static stability of wheelchairs. It is applicable to manual and electrically powered wheelchairs.
  105. [105]
    https://www.hamiltoncaster.com/Casters/Ergonomic-Casters/Ergo-X2-Swivel-Casters
  106. [106]
    Roll Models: All about Casters - WOOD Magazine
    Apr 22, 2024 · Caster wheels made from rubber are softer, allowing for more "give" when rolling over floor cracks, power cords, or other obstacles. They ...
  107. [107]
    Decorative - Faultless caster
    Free delivery 30-day returnsDecorative casters have attractive finishes and are perfect for furniture, retail, and hospitality applications when casters will be or want to be seen.
  108. [108]
    How to Attach Caster Wheels to Furniture: A Complete Guide for ...
    Sep 27, 2024 · To install, drill a hole in the furniture leg that matches the size of the caster stem, insert the stem, and tap it into place with a rubber ...
  109. [109]
    Twin wheel casters - Stability and mobility solutions
    Dec 21, 2024 · Anyone seeking a combination of mobility, stability and durability, twin wheel casters are the best choice. The versatile design, enhanced ...
  110. [110]
    Creating a Wheelchair-Friendly Home: A Complete Guide
    There are many ways to optimize a home for wheelchair use. This guide will take a look at every part of the house, inside and out.
  111. [111]
    The History of Casters - PHS Wire
    Jun 25, 2015 · Then many centuries later in 1876, casters were first patented by a man named David A. Fisher, whose invention was initially designed for ...
  112. [112]
    Why Industrial Castor Wheels Are Essential for Material Handling ...
    Nov 25, 2024 · High-quality castor wheels minimize wear and tear on floors by distributing weight evenly and preventing scuffs or scratches. Shock-absorbing ...
  113. [113]
    https://phswire.com/wire/the-history-of-casters/
  114. [114]
    https://techincastor.com/industrial-castor-wheels-for-material-handling-equipment/
  115. [115]
    S34 Series: The NSF Certified Stainless Steel Casters for Food ...
    The S34 NSF certified stainless steel caster is machine welded, high grade 304 stainless steel, providing a caster that is proven to be resistant to oxidation, ...
  116. [116]
    https://www.zambus.com/blog/rolling-through-life-a-comprehensive-guide-to-caster-wheel-applications/
  117. [117]
    https://www.linkedin.com/pulse/how-caster-bracket-works-one-simple-flow-2025-136wf/
  118. [118]
    5000 LBS - Allied Caster
    HEAVY DUTY LEVELER WITH 2.5″ BASE AND A 5/8″ THREADED STEM · Wheel Type: · Overall Height: 7" · Top Plate: · Bolt Holes: · Weight Capacity: 5000 LBS.
  119. [119]
    https://casterconnection.com/casters-for-food-processing
  120. [120]
    Usage and maintenance of wheels and castors - Industrialwheels.com
    7-day returnsRegular maintenance includes cleaning, lubrication every six months, checking fasteners, and inspecting for damage and material issues.
  121. [121]
    Global Caster Market Outlook 2025–2030 - Jess Caster
    The global market for caster wheels is expected to increase at an impressive rate, from USD 8.3 billion in 2023 to over USD 12 billion by 2029.
  122. [122]
    Directive 2006/42/EC - machinery directive - EU-OSHA
    Jun 13, 2024 · Directive 2006/42/EC on machinery lays down health and safety requirements for the design and construction of machinery, placed on the European market.
  123. [123]
    Castors and wheels covered under EN 12531, EN 12527 and EN ...
    Jul 8, 2021 · Castors and wheels covered under EN 12531, EN 12527 and EN 12528 are covered by which directive? Do they require Notified body involvement? Open.
  124. [124]
    https://jesscaster.com/global-caster-market-outlook-2025-2030/
  125. [125]
    https://osha.europa.eu/en/legislation/directives/directive-2006-42-ec-of-the-european-parliament-and-of-the-council
  126. [126]
    Prevenz: The Safe Solution | Antimicrobial Wheels from Albion Casters
    The EPA-registered and FDA-compliant antimicrobial additive used in Prevenz™ wheels is designed to suppress the growth of a variety of destructive and odor- ...
  127. [127]
    Durable and Quiet Medical Caster Castor Wheels for Hospital Beds
    Ergonomics: Low push-force castors reduce physical strain on healthcare workers, helping prevent musculoskeletal injuries. Regulatory Compliance: Ensure castors ...
  128. [128]
    https://www.accesscasters.com/antimicrobial-casters.aspx
  129. [129]
    FDA-Approved Materials for Medical Devices - Modus Advanced
    The FDA has issued clear standards for materials used in medical devices, and that includes silicones. This post covers what you need to know.
  130. [130]
    Customization of manual wheelchair components: a state-of-the-art ...
    Mar 24, 2025 · The concept of wheelchair customization emerged during the ultralight wheelchair revolution that occurred in the late 1970s. This was the time ...