This opening chapter delves into the essentials of caster wheels, exploring their basic concept, manufacturing process, and how they operate.
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Caster wheels are unpowered wheels attached to the base of larger items to facilitate easier movement. They are widely used in items such as shopping carts, office chairs, hospital beds, and equipment for handling materials.
Available in numerous types to suit specific uses, caster wheels offer key mobility benefits such as durability, resistance to corrosion, weather, and water. Choosing the right caster wheel depends on the terrain and the load's weight. Heavier loads require more robust wheels, and larger objects might need multiple casters to evenly distribute weight.
This part explains the manufacturing processes essential for making caster wheels.
The initial phase in caster wheel production involves cutting the top plate, which attaches the caster to objects like industrial carts. This is done by slicing through a thick steel sheet using a CNC machine that employs a mix of oxygen and electricity to generate plasma. Plasma cutting is a thermal technique that melts through metal using ionized gas, providing both precision and speed, making it effective for cutting both thick metal plates and thin sheets.
The next component to cut is the fork, which supports each side of the wheel axle. Forks are crafted from steel coil, a more pliable and thinner variant of steel. The coil is rolled and directed into a punch press machine that shapes it into yokes. These yokes are pressed to form the desired shape and a groove is made around the center hole, which is then filled with ball bearings for swivelling action. A steel retainer secures these ball bearings. Additional bearings are placed in the steel cap's grooves, then all components are integrated using a punch press. The cap is fastened to the yoke’s retainer, sandwiching the bearings securely. Afterwards, the top plate is riveted onto the yoke and capped with a final steel seal using a pneumatic press.
The next stage in making caster wheels involves extruding the wheel materials. Nylon inserts are put into an injection molding press, where neoprene rubber is melted and injected into molds. The rubber cools to form solid rubber-edged wheels, which absorb shocks, minimize noise, and shield flooring from damage.
Larger wheels require a distinct molding press matching their size, though the molding technique is consistent. These larger presses generally produce one wheel per cycle. Following molding, wheels are cooled for about two and a half hours. The mold consists of dual parts that build a single wheel. Once removed, the rubber is smoothed for a flawless surface.
A two-piece bearing is installed inside the wheel using a pneumatic press for security. Steel guides are put on either side to ward off debris and stabilize the structure. These guides also facilitate wheel positioning between the yokes and assist in axle insertion. A bolt head secures one end of the axle, and a nut secures the other. Grease is applied to lubricate the ball bearings, ensuring smooth operation.
The wheel undergoes rigorous quality checks to ensure it can endure multiple rotations before failure occurs.
Several essential considerations should be made when selecting caster wheels:
For equipment that moves strictly in a linear direction, like large devices temporarily relocated for cleaning, fixed casters may suffice. If high maneuverability is needed, swivel casters are advisable. Assess whether swivel locks are necessary for items primarily moving straight. While casters offer mobility, it's crucial to evaluate the degree of necessary movement freedom.
The choice of mounting type can greatly impact caster selection, even if it may appear minor. Many applications necessitate stem-mounted casters, which could limit weight capacity. Heavier duties often benefit from plate-mounted casters to spread load more broadly. Understanding mounting prerequisites aids in refining caster choices from the extensive available options.
Identifying the machinery on which casters will be mounted plays an important role in choosing the proper type. Answering this straightforward question helps determine if light, medium, or heavy-duty casters are appropriate based on the weight they’ll bear. It's also key to consider the working environment: Will noise reduction be critical?
Caster wheels, also known as caster rollers, play a crucial role in an array of applications, including medical equipment, industrial carts, manufacturing operations, material handling systems, furniture, and more. Choosing the right caster wheel is essential for optimizing mobility, safety, and floor protection. By understanding the varied properties, designs, and best-use scenarios of each wheel type, users can ensure efficiency and durability for their specific environment—whether in warehouses, cleanrooms, laboratories, or food processing facilities.
Soft treaded caster wheels are ideal for delivering a comfortable, quiet ride while safeguarding delicate floor surfaces like hardwood, linoleum, and tile. Constructed from thermoplastic rubber, mold-on rubber, or polyurethane tread on plastic core, these wheels offer excellent shock absorption and are highly resistant to chemicals, oils, and acids. Compared to harder wheels, soft treads overcome small debris and reduce noise, although their softer composition slightly limits load capacity and ease of rolling. Typical applications include medical and pharmaceutical equipment, food service equipment, hospital beds, and sensitive loads for light to medium-duty tasks. Their non-marking feature makes them preferred for environments where floor appearance is a priority.
Ferrous wheels—precisely forged from steel or cast iron—excel in load capacity, rollability, durability, and impact resistance. With their rugged construction, these heavy-duty caster wheels withstand harsh conditions, significant wear, and substantial weights, making them ideal for industrial carts, warehouse trolleys, factories, and manufacturing plants. While their robust nature is perfect for tough surfaces, they provide minimal floor protection, so they are not recommended for use on delicate or finished flooring. When selecting ferrous wheels, consider requirements such as impact resistance, chemical resistance, and temperature tolerance for maximum performance in demanding applications.
The wheel is a critical component of any caster assembly, which is why proper selection considering load rating, operating environment, and compatibility with surfaces is fundamental for maximizing productivity and minimizing downtime.
Polyurethane tread caster wheels are widely used across industries for their combination of high load capacity, floor protection, and resistance to oil, grease, water, and chemicals. Solid polyurethane tread can be chemically or mechanically bonded to a variety of cores, such as plastic, cast iron, or aluminum, resulting in load ratings up to 3,000 pounds. These wheels are a top choice for warehouse shelving, platform trucks, order picking carts, and automated guided vehicles (AGVs).
One potential drawback of polyurethane wheels is tread separation under heavy load or physical damage. This risk is minimized with molded urethane wheels, where the entire wheel is formed as a single, solid piece. Poly wheels are valued for their quiet operation, vibration dampening, and minimal maintenance needs, making them suitable for both manual and automated material handling equipment.
Synthetic tread caster wheels, manufactured from advanced polymers such as solid elastomer, polypropylene, polyolefin, fiberglass-reinforced polypropylene, phenolic resin, and solid nylon, are favored for their high impact strength, low rolling resistance, and long-term reliability in industrial environments. Although these caster wheels deliver superior durability and perform well under high-impact and harsh conditions, they are typically noisier and less forgiving than soft alternatives, particularly when rolling over debris or uneven floors.
Phenolic wheels, for example, are engineered from a combination of phenolic resin and macerated canvas. They are widely used in push-pull operations due to their ease of mobility, strength, and resistance to grease and harsh chemicals. For users seeking non-marking, cost-effective, and heat-resistant caster wheels for bakery racks, manufacturing plants, or heavy-duty carts, synthetic treads provide an excellent option. However, confirm environmental suitability, as some synthetic compounds are not designed for use in wet or constantly damp environments.
Cast iron caster wheels, made from gray iron and often referenced as semi-steel wheels, deliver exceptional abrasion resistance, long service life, and ease of rolling under heavy loads. These industrial caster wheels are engineered for high-capacity uses across warehouses, foundries, and steel mills, handling exposure to mild chemicals, oily surfaces, and abrasive debris, as well as temperatures ranging from extreme cold (-45°F) to high heat (+250°F). Multiple bearing choices—including roller bearings, precision ball bearings, and Delrin bearings—enhance smooth operation based on specific trolley or cart requirements.
Thanks to their robust structure and exceptional load ratings, cast iron wheels are particularly well-suited for automated transfer systems and industrial racking where extreme weight and rough floor conditions are standard.
Flanged caster wheels are specifically designed for guided mobility along steel tracks. This construction reduces rolling resistance, enhances direction control, and protects floors by confining loads to designated paths. Typically manufactured from cast iron or steel for durability and strength, flanged wheels feature prominent brinell hardness ratings (130–150) and run smoothly with a variety of bearing options such as plain bore, straight roller, or precision tapered roller bearings.
Flanged wheels are ideal for moving equipment in automotive assembly lines, production conveyors, and specialized industrial rail systems. With suitability for extreme heat (operating up to 800°F), these wheels excel in applications requiring reliability under high temperature, oily, or debris-laden conditions.
Forged steel and ductile steel caster wheels represent the highest level in unbreakable load-bearing capacity and shock absorption for industrial casters. These wheels are nearly indestructible under normal usage, thrive in high-temperature and rugged environments, and are an optimal choice for heavy manufacturing and material transport on concrete or steel surfaces. Forged steel models excel at resisting fracture while handling impact, while ductile steel offers slightly better flexibility without sacrificing strength.
With options for plain, tapered, Teflon, and roller bearings, these wheels maintain performance across challenging industrial environments—such as metal fabrication shops, automotive plants, and steel processing facilities. Their resistance to abrasives, oils, mild chemicals, and high heat (+250°F) sets them apart for continuous use on heavy-duty equipment, racking systems, and heavy carts.
Glass-filled nylon caster wheels are designed for exceptional performance in environments with extreme temperatures, high humidity, and chemical exposure. The blend of nylon and glass results in wheels that are lightweight, tough, non-marking, and highly resistant to impact, oils, greases, and cleaning agents. Suitable for both intermittent and continuous use (up to 490°F and up to 550°F for short durations), these industrial wheels function effectively on a broad spectrum of flooring—including carpet, brick, concrete, linoleum, terrazzo, and wood.
Glass-filled nylon wheels feature excellent dimensional stability and can be used in settings where exposure to water, steam, mild chemicals, animal fats, or extreme heat/cold is common. Their non-corrosive nature and resistance to hard impacts make them a reliable solution for food processing, pharmaceutical manufacturing, and commercial kitchen equipment.
Hard rubber caster wheels, molded in one piece and typically colored black or gray, provide greater load capacity and rolling efficiency than soft rubber wheels. They excel at resisting flattening—and thus reduce downtime caused by static loads—while delivering robust performance across varying floor conditions. With resistance to chemicals, oils, greases, solvents, and cleaning agents, these general-purpose wheels are widespread in utility carts, institutional equipment, and commercial cleaning equipment.
Available bearing types include plain, ball, and Delrin bearings, supporting reliable operation over wide temperature ranges. Their durability, floor protection, and assistance in noise reduction make them ideal for diverse mobile applications across healthcare, retail, and facility maintenance industries.
Pneumatic caster wheels feature air-filled rubber tires that provide the ultimate in shock absorption, vibration dampening, and smooth navigation over rough or uneven surfaces. Their exceptional floor protection and ability to roll over debris make them indispensable for applications transporting delicate, high-value, or sensitive equipment, such as in aerospace, electronics, and hospital settings.
Pneumatic wheels are frequently used on outdoor carts, dollies, and warehouse trucks. Their air-cushioned ride reduces stress on operators, protecting floor surfaces and preventing product damage during transport.
Polyolefin caster wheels are engineered for high performance at a budget-friendly price. Lightweight, non-marking, and non-conductive, they offer superior abrasion resistance and withstand impacts, water, oils, chemicals, and solvents. These wheels are a smart solution for bakeries, dairy plants, grocery stores, food processing, laundries, and light manufacturing.
With their versatile design, polyolefin wheels help companies maximize efficiency and cleanliness on production lines, transport carts, and display racks.
Rubber balloon on aluminum caster wheels feature an extra-thick, precisely molded gray rubber tread permanently bonded to a strong core. Their cushioned, quiet ride over rough or uneven flooring makes them a valued choice for cargo carts, hospitality trolleys, and audio-visual equipment. In addition to their excellent durability and non-marking, non-conductive properties, these wheels provide superior shock absorption and outstanding floor protection—even in high-traffic environments where both noise control and surface preservation are important.
V-groove caster wheels, typically made from gray iron castings, serve specialized material handling environments where controlled movement on angled steel tracks is required. The machined 90° groove ensures optimal load distribution and secure guidance along the track. V-groove wheels are highly favored in manufacturing, warehousing, and assembly operations for transporting heavy loads efficiently over long distances while minimizing visitor-induced floor wear.
For applications where safety and stability are paramount, industrial casters frequently incorporate integrated brake systems. Brakes prevent movement on inclined or unpredictable surfaces, supporting compliance with safety standards. There are multiple types of caster brakes, each engineered for unique carts, trolleys, and transport scenarios in logistics, warehousing, healthcare, and assembly line operations.
Polyurethane cam brakes deliver adjustable holding force via a cam mechanism that presses a plate against the wheel’s running surface. These brakes offer powerful, reliable stopping power and can be actuated by hand or foot for ergonomic efficiency and operator safety. Suitable for heavy-duty casters found on industrial carts, medical equipment, and manufacturing assemblies, polyurethane cam brakes are valued for their durability, ease of use, and low maintenance needs.
Face contact brakes use a threaded rod and handle to manually apply a plate against the wheel’s surface, ensuring a strong, reliable hold. Ideal for extremely heavy loads and applications where carts or equipment must be locked in place for maintenance, assembly, or safety reasons, these brakes provide maximum security. Although more labor-intensive to operate, their robust holding capacity makes them suitable for heavy-duty industrial and manufacturing use cases.
Side brakes, sometimes referred to as side lock brakes, utilize a simple pedal-activated mechanism that presses a washer into the wheel hub, effectively stopping rotation. Their low-profile design fits within the caster’s swivel radius, conserving space and simplifying brakes on compact carts or institutional equipment. Best suited for light-duty caster wheel applications, side brakes are user-friendly but offer moderate holding power, making them ideal for hand trucks, display racks, and utility carts in retail and office settings.
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When selecting a braking system for your caster wheels, consider the required holding strength, method of engagement (foot or hand), operator safety, and the specific demands of your daily operations. Using the appropriate brake type can significantly boost workplace safety, productivity, and ease of equipment handling.
This chapter will explore the various applications and benefits of caster wheels, along with guidelines for their maintenance.
In residential settings, lightweight casters are often employed to facilitate the movement and support of furniture and household appliances. Items like bookshelves and computer desks can be enhanced with stylish casters. Conversely, heavy-duty casters are predominantly used in industrial environments, such as factories and warehouses, to manage large and heavy objects that need to be moved.
In aerospace and aviation, heavy-duty caster wheels are essential for handling substantial workpieces, machinery, and equipment. These casters play a crucial role in aircraft engine stands, allowing for easy repositioning and secure locking. Similarly, high-speed bearings are incorporated into heavy-duty casters used on aircraft tow bars.
Heavy-duty casters are also utilized in aviation hangar doors, where they must support the substantial weight of these large doors. While rigid casters are an option, the ability to move these doors with ease, whether manually or via an automatic mechanism, is crucial. Additionally, heavy-duty casters are applied to helicopter landing pads and trolleys to facilitate the movement of helicopters post-landing.
Landing trolleys equipped with heavy-duty wheels provide enhanced stability and ease of movement on the landing platform. These casters are also used to transport shipping containers, being attached via specialized corner brackets.
In supermarkets, casters are integral to the smooth operation of shopping carts, aiding in the effortless transport of groceries. Unlike assembly lines, hospitals prioritize patient care and comfort over efficiency. Ensuring smooth movement within the hospital is essential for patient recovery. This is why high-quality, reliable casters are crucial for the transportation of patients and equipment.
Spending extended periods in a hospital bed while awaiting procedures can be challenging. Patients often need to move their personal health monitors, making reliable and smooth-rolling casters vital. Efficient movement is necessary as patients are transferred between beds, surgical rooms, and recovery areas throughout the hospital.
Pneumatic wheels excel in shock absorption, making them ideal for both rugged terrains and scenarios where the cart's cargo needs protection from sudden impacts. These wheels are suitable for a range of applications, including both off-road and paved surfaces, thanks to their ability to handle uneven ground effectively.
Noise Reduction: Pneumatic wheels are designed to minimize noise, contributing to a more pleasant working environment. The soft rubber tread and inherent shock-absorbing properties of these tires help in reducing noise, which can otherwise be harmful to hearing. They also protect flooring from damage, as the softer wheel material prevents scratches and other types of surface wear.
By facilitating movement, wheels and casters alleviate physical strain and effort for employees who handle heavy loads. This makes tasks easier and less physically demanding.
In manufacturing and storage settings, wheels and casters enhance the efficiency of moving parts and inventory, streamlining various operations and processes within the plant.
Casters are designed for ease of use, offering maximum support with minimal resistance. For example, in supermarkets, caster wheels on shopping carts are engineered to allow smooth movement with minimal effort. Similarly, industrial casters facilitate the movement of large machinery and equipment with ease, offering low resistance against the floor.
One of the key benefits of casters is their ability to bear significant weight without failure. Since caster wheels rotate around an axle and bearing system, they experience less direct pressure compared to traditional wheels. This design allows them to support heavier loads more effectively.
Casters are available in various shapes, sizes, and materials, providing versatility for different applications. Larger casters can reduce the effort needed to move heavy items and are more durable when handling substantial loads, making them suitable for equipment that exceeds typical manual handling capacity.
When evaluating whether a pneumatic wheel is suitable for your needs, there are several factors to consider. One key aspect is the amount of force required to initiate movement. Due to their larger contact area and the flexibility of the air-filled tire, pneumatic wheels require a greater initial push force. Additionally, the larger footprint can make maneuvering and swiveling the wheels more challenging, often necessitating a longer swivel lead. It's also crucial to monitor the air pressure regularly. Pneumatic wheels require more upkeep as they are prone to flats and punctures. To mitigate this issue, some opt for semi-pneumatic wheels filled with polyurethane foam. These wheels eliminate the risk of flats since they don't rely on air, though they do sacrifice some of the cushioning benefits provided by air-filled tires.
Maintaining caster wheels involves several important considerations:
To maximize the lifespan of caster wheels, regular lubrication is essential. Typically, this means applying lubricant to both the wheels and their fittings approximately every six months. This practice should be part of a routine maintenance schedule where all casters and related components are inspected, lubricated, and tested to ensure optimal performance.
However, the six-month interval is not a one-size-fits-all recommendation. Certain types of casters are used in more challenging environments where they may be exposed to moisture or corrosive substances. In such cases, more frequent maintenance is required. For casters subjected to regular exposure to water or harsh chemicals, it is advisable to grease them at least once a month to maintain their functionality and prevent damage.
The hardware components that secure the wheels in place are just as important as the caster's lubrication. These critical parts often experience significant wear and tear, as they counteract gravity and other stresses regularly. To ensure everything remains in good condition, it is recommended to inspect these fittings monthly. This involves lifting or tilting the equipment to examine the connections between the casters and the machine, including nuts, bolts, screws, and other fasteners.
Any signs of misalignment, wear, or damage should be addressed promptly. Neglecting minor issues can lead to more serious problems and potentially require a full caster replacement. Timely repairs or replacements are essential to maintaining the caster's performance and longevity.
While lubrication and secure fastenings are important, maintaining the integrity of the caster wheel itself is equally vital. Many casters feature a tread or rubber covering designed to ensure smooth and quiet movement. However, the surfaces these treads roll on can lead to flattening or damage over time. Such wear can accelerate the deterioration of the caster wheel and compromise the effectiveness of previously applied lubricants and fastenings.
Regularly inspect the treads and overall condition of the caster wheels for signs of wear and tear. Replace any damaged wheels or treads promptly to prevent more significant issues that could necessitate replacing the entire caster assembly. Implementing a monthly inspection routine can help ensure the long-term reliability and performance of your casters.
To ensure that casters remain in excellent condition and achieve their full expected lifespan, regular inspections are essential. With consistent lubrication, timely maintenance, and thorough checks, casters can perform reliably for many years, minimizing the need for costly replacements and installations.
A caster is a non-powered wheel that is designed to be fitted to the bottom of a bigger object and used to move it. Caster wheels are attached on the base of device moving equipment and bring about mobility of those objects. They enable movement of heavy objects with less force being applied. Caster wheels require regular maintenance to live longer in operation.
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Today there are about 2.5 million hospital and nursing home beds in use in the United States. Between and January 1, , 803 incidents of patients* caught, trapped, entangled, or strangled in beds with rails were reported to the U.S. Food and Drug Administration. Of these reports, 480 people died, 138 had a nonfatal injury, and 185 were not injured because staff intervened. Most patients were frail, elderly or confused.
* In this brochure, the term patient refers to a resident of a nursing home, any individual receiving services in a home care setting, or patients in hospitals.
Patients who have problems with memory, sleeping, incontinence, pain, uncontrolled body movement, or who get out of bed and walk unsafely without assistance, must be carefully assessed for the best ways to keep them from harm, such as falling. Assessment by the patient’s health care team will help to determine how best to keep the patient safe. Historically, physical restraints (such as vests, ankle or wrist restraints) were used to try to keep patients safe in health care facilities. In recent years, the health care community has recognized that physically restraining patients can be dangerous. Although not indicated for this use, bed rails are sometimes used as restraints. Regulatory agencies, health care organizations, product manufacturers and advocacy groups encourage hospitals, nursing homes and home care providers to assess patients’ needs and to provide safe care without restraints.
Potential benefits of bed rails include:
Potential risks of bed rails may include:
Most patients can be in bed safely without bed rails. Consider the following:
When bed rails are used, perform an on-going assessment of the patient’s physical and mental status; closely monitor high-risk patients. Consider the following:
A process that requires ongoing patient evaluation and monitoring will result in optimizing bed safety. Many patients go through a period of adjustment to become comfortable with new options. Patients and their families should talk to their health care planning team to find out which options are best for them.
If patients or family ask about using bed rails, health care providers should:
To report an adverse event or medical device problem, please call FDA’s MedWatch Reporting Program at 1-800-FDA-.
For additional copies of this brochure, see the FDA’s Hospital Bed website.
For more information about this brochure, contact Beryl Goldman at 610-335- or by at . She has volunteered to answer questions.
For information regarding a specific hospital bed, contact the bed manufacturer directly.
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