I nostri tiranti in catena a più braccia sono la soluzione ideale per sollevare carichi pesanti e ingombranti in modo sicuro ed efficiente. Realizzati con materiali di alta qualità e dotati di multiple regolazioni, garantiscono una distribuzione uniforme del carico, una presa salda e assicurano un'operazione di sollevamento precisa e controllata. CHAIN LIFTING TIE RODS TECHNICAL SPECIFICATIONS – CHAIN SLINGS Lifting chains are a type of device used to lift heavy loads in industrial and commercial applications. Also known as slings, they are available in different lengths and load capacities to suit specific requirements. They are often used with cranes, winches, and other lifting devices to ensure safety and efficiency during lifting operations. Lifting chains are generally made of alloy steel, which is known for its strength and durability. Alloy steel is mainly composed of iron and carbon, with the addition of other elements such as nickel, chromium, and molybdenum to enhance its mechanical properties. Chain slings for lifting must be able to withstand heavy loads and resist wear and fatigue during use. Therefore, alloy steel is the ideal material for their construction, as it offers the necessary combination of strength, hardness, and ductility required for lifting applications. In addition, lifting chains may undergo quenching and hardening processes to further improve their mechanical properties and wear resistance. These heat treatment processes help ensure that the chains maintain their structural integrity even under heavy loads and demanding working conditions. Finally, lifting slings may be coated with protective materials such as galvanization to prevent corrosion and extend their service life. These coatings can be essential to ensure the safety and reliability of lifting chains, especially in environments with high humidity or exposure to corrosive substances. Accessories for chain slings are additional components used to connect, lift, or secure loads with chains. Some of the most common accessories for chain slings include: Hooks: Hooks are fundamental components for chain slings and are used t o attach and lift loads. They may be equipped with safety devices to prevent accidental disengagement. Connecting links: Connecting links are used to join the ends of chains to form closed loops or to connect chains to hooks or lifting eyes. Clamps: Clamps are used to tighten chains together or to secure them to an anchoring point. They can be used to create additional lifting points or to secure loads in position. Eye hooks: Eye hooks are used to connect chains to lifting points or lifting equipment. They can be used in combination with grab hooks to create versatile lifting points. Extension chains: Extension chains are additional chains used to extend the length of the main chains or to adapt them to different lifting configurations. It is important to select the appropriate accessories based on the specific lifting requirements and to ensure that they comply with safety standards and the load capacities of the chains. In addition, accessories must be used correctly and in accordance with the manufacturer’s instructions to ensure safety during lifting operations. CHAIN TIE ROD CAPACITY GRADE 80 CHAIN TIE ROD CAPACITY GRADE 100 LIFTING METHODS WITH CHAIN TIE RODS Use and Maintenance of Chain Tie Rods Lifting slings are undoubtedly the most popular for many reasons. This versatile type of sling is used in various industries, such as construction, industrial, maritime, and transportation. Lifting Tie Rods Chain slings for lifting are extremely versatile and incredibly durable, commonly used to lift heavy or bulky objects on construction sites, such as containers, concrete slabs, pipes, dense materials, prefabricated structures, and much more. Made from high-strength lengths of chain with a variety of attached accessories, the chains and their mechanisms are classified as Grade 80 (T), Grade 100 (V), or Grade 120. Load Dimensions When selecting a lifting chain, it is crucial to evaluate the load it will be lifting. Most lifting chains are durable and designed to lift loads of various types of materials, making them suitable for use in most situations. It is crucial to evaluate each load individually to determine whether the chain can withstand the load, so as not to risk compromising the safe lifting of materials or a structure, as well as the safety of the operator and the surrounding environment. Durability at Different Temperatures and Conditions Chain slings are renowned for their strength and performance in extreme temperatures and heavy-duty applications. They can withstand temperatures up to approximately 500 degrees Celsius, making them the ideal choice for metal fabrication, steel plants, heavy machinery manufacturing and transportation, and various other environments that face extreme temperatures. A lifting chain will not melt, break, or weaken under these conditions, providing comfort to buyers and operators. Lifting chains are abrasion-resistant, an essential factor as they are less likely to cause heat-induced damage. EXAMPLE OF A FOUR-ARM CHAIN TIE ROD Sling Chain Ratings Most chain slings currently on the market have industrial ratings listed on their labels, detailing their specific conditions of use. These specified conditions may include maximum environmental or temperature exposure conditions, operating requirements, and assembly instructions for attaching the sling to the load. Ensure these guidelines are followed as prescribed to avoid any risk of damage to the sling, its load, and to avoid compromising the safety of the operator and the surrounding environment. Lifting points It's essential to analyze and calculate the correct load attachment points; otherwise, you'll need to evaluate and determine other attachment points sufficient for proper lifting. Where lifting points don't exist, it's wise to select a chain sling that can pass through an opening in the load. You can also opt for a chain sling that can wrap securely around the load. Quarterly inspection of the tie rod A quarterly inspection of the chain link is mandatory. This inspection must ensure that all aspects meet standard safety guidelines. Therefore, the chain link must be cleaned before each inspection. This inspection must confirm that it is properly labeled and certified, and that each chain link examined shows no signs of wear, twisting, stretching, scratches or marks, heat damage, chemical burns, or extreme corrosion. Note: Any natural wear of the tie rod can be tolerated as long as the width of any section is not reduced by 10% of the nominal section. Lifting ties

I tiranti in poliestere sono la soluzione perfetta per movimentare carichi in modo semplice e sicuro. Leggeri e maneggevoli, si adattano a qualsiasi ambiente di lavoro. Scegli la qualità e l'affidabilità dei nostri tiranti in poliestere. Massima resistenza e flessibilità con i tiranti in poliestere. Perfetti per movimentare carichi di ogni forma e dimensione. Tiranti in poliestere: sollevamento sicuro e affidabile di carichi pesanti. Ideali per edilizia, logistica e industria. POLYESTER LIFTING RODS POLYESTER LIFTING SLINGS In the transport sector, one of the most common situations is lifting loads of considerable size and weight from the ground onto a vehicle or vice versa. To facilitate this process in the most effective way possible, the best tool for lifting heavy loads of this kind is a polyester sling. What are polyester slings Polyester slings or straps are a type of sling used for lifting heavy loads and are designed and manufactured to withstand a considerable amount of weight and a wide range of different load shapes. They are made with a strong polyester weave to withstand various types of work you may encounter, including those involving significant heat, water, and unfavorable weather conditions. As a result, they are much stronger, more durable, and more reliable than older forms of heavy-load lifting, such as ropes. How polyester slings are used Polyester lifting slings are particularly useful in cases where the load to be lifted from one area to another is not only considerably large and heavy, but also difficult to handle and has no attachment points on any side. This is often the case when lifting items such as metal pipes, pallets of concrete blocks, construction materials, and more. Approved code of practice Being aware of the correct procedure for using polyester lifting slings is essential. Fortunately, there are several useful and reliable ways to use them. Most of these approved methods are based on a variety of factors such as the size, shape, density, and center of gravity of the object or objects to be lifted. One of the most important factors to consider is the need to pay close attention to the type of hitch the sling will be required to support. For example, a “choker hitch” (i.e., a hitch in which the polyester sling passes through itself) will reduce the capacity by 20% compared to the working load limit safety factor. In addition, one of the most important things to remember is that a load must be properly secured and the lifting point must always be directly above the center of gravity of the load. This helps ensure that the load does not tilt in any way during lifting. Important safety information for the use of polyester slings Whether using a flat polyester sling with eye loops or a round polyester sling, it is important to follow all proper safety protocols. This will ensure that the lifting sling lasts considerably longer and maintains its safety performance. Below are the most important safety procedures that must be followed when using polyester slings: > Make sure to avoid shock loading. > Do not use a flat or round polyester sling with a missing or illegible label. > For loads with rough surfaces or sharp edges, protective devices must be used to protect the slings from possible cuts. > Never use a damaged or worn polyester sling. > Never use round or flat slings outside the temperature range of -40°C to +100°C. > Do not exceed the working load limit specified by the manufacturer. > Polyester slings must be used so that the load is distributed across their full width. > Do not pull to remove the polyester sling from under a load if the load is resting on it. > Always visually inspect flat or round slings before use. It is the operator’s responsibility to ensure that the lifting equipment is safe to use. When in doubt, do not use it! Flat and round slings must never be knotted. CAPACITY OF ROUND POLYESTER RING BANDS CAPACITY POLYESTER BANDS WITH BUTTONHOLES Types of polyester lifting slings As mentioned, polyester lifting slings are among the most reliable types of slings available on the market for a wide range of lifting applications. They also offer the added advantage of being able to handle substances such as open liquids, various acids, and bleach. In addition, polyester lifting slings are recommended in cases where it is important not to leave any surface marks on the load, for example when lifting a boat or a marble slab. Polyester lifting slings generally come in two different forms: Flat: A standard strap made of strong polyester webbing is the right choice when handling a load of considerable weight and size that needs to be lifted but does not necessarily require maximum protection. When greater flexibility and strength are needed, flat slings are the ideal option. Flat slings have an eye loop at each end. Round: An endless loop of webbing covered by a braided tubular sleeve. These are typically intended for applications where a load requires an extra level of protection due to fragility or other reasons where it is even more critical that it is not dropped or damaged in any way, shape, or form. Replacement of polyester slings: In most cases, polyester lifting slings can last up to 5 years. This naturally depends entirely on how well they are maintained and the type of loads they are used to lift. If any potential wear points are found on a polyester sling, it must be replaced immediately with a new one to avoid putting both the load and personnel at risk. What to look for during visual inspections of lifting slings: When inspecting polyester slings, it is essential to always watch for defects such as signs of damage or fraying caused by cuts or wear. Inspections are normally carried out by fully qualified personnel. These professionals know exactly what issues to look for in polyester lifting slings, such as worn or missing identification tags, worn fittings, acid burns, as well as melting or discoloration of any area of the sling. These checks significantly reduce the likelihood of critical sling failures during use and provide a much clearer indication of when replacement is necessary. M.E.C.I. srl is qualified to carry out inspection and re-certification of lifting equipment. LOAD CAPACITY FACTOR REDUCTION TABLE Lifting ties

Per il settore edile: Fune da cantiere 6x36, sicurezza e affidabilità per ogni lavoro in quota. Resistente agli agenti atmosferici grazie alla zincatura. Cavo d'acciaio per sollevamento pesi: Ideale per gru, paranchi e carrelli elevatori. Garantisce prestazioni elevate anche in condizioni estreme. Per il settore nautico: Fune per ormeggio e traino. Fune in acciaio zincato 6x36: Resistente e flessibile, ideale per sollevamento anima metallica per maggiore durata. 6x36 GALVANIZED STEEL ROPE WITH METAL CORE Description The 6x36 is the most commonly used construction across various sectors. Its flexibility makes it a multipurpose rope. We offer several versions of this rope: - Fiber core or independent core - Right or left normal core - Dry or lubricated. TECHNICAL DATA SHEET

Grilli ad omega e diritti realizzati in acciaio di alta qualità che garantisce una lunga durata nel tempo. Perfetti per sollevare carichi pesanti in totale sicurezza. La soluzione ideale per collegare funi e catene nei tuoi lavori di sollevamento. Scegli tra diversi modelli e portate per soddisfare ogni esigenza. SHACKLES FOR LIFTING HIGH RESISTANCE OMEGA CRICKETS THREADED PIN HIGH STRENGTH OMEGA SHACKLES WITH THREADED PIN Omega shackles with threaded pin are lifting devices used to lift loads safely and in a controlled manner. These shackles consist of an omega-shaped threaded pin connected to a lifting plate. Below is a brief technical report on the main technical and functional aspects of omega shackles with threaded pin: Materials: Threaded pin omega shackles are commonly made of high-strength alloy steel, which offers an optimal combination of strength and durability. Robust construction is essential for ensuring safety when lifting loads. Shape and Thread: The omega shape provides a secure attachment point for lifting loads. The pin's thread must be machined with extreme precision to ensure adequate strength and secure installation. Lifting plate: The lifting plate is connected to the threaded pin and provides a contact surface for the lifted load. It must be designed to distribute pressure evenly and reduce the risk of damage to the load. Load Capacity: Each shackle has a maximum allowable load capacity, which depends on the size of the threaded pin and the strength of the materials used in the shackle's construction. This capacity must be adhered to to ensure safe lifting of loads. Applications: Threaded pin omega shackles are widely used in industrial lifting applications, construction, and heavy-duty work environments where heavy loads need to be lifted in a safe and controlled manner. In conclusion, threaded pin omega shackles are essential devices for safely lifting loads. Their sturdy construction, threaded pin, lifting plate, and load capacity are all crucial to ensuring safe and controlled lifting of loads. HIGH RESISTANCE OMEGA CRICKETS COTTER PIN NUT Omega shackles with nuts and cotter pins are lifting devices used to lift loads safely and in a controlled manner. They consist of an omega shackle, a wing nut, and a safety cotter pin. Below is a brief technical report on the main technical and functional aspects of omega shackles with nuts and cotter pins: Materials: Omega shackles with nuts and cotter pins are commonly made of high-strength alloy steel, which offers an optimal combination of strength and durability. Robust construction is essential for ensuring safety when lifting loads. Load capacity: Each shackle has a maximum load capacity, which must be respected to ensure safe lifting. The load capacity depends on the size of the shackle and the strength of the materials used in its construction. Wing nut: The wing nut securely attaches the shackle to the lifting point. It should be designed so that it can be tightened manually without the use of special tools, allowing for quick and safe installation. Safety cotter pin: The safety cotter pin is an additional fastening device that ensures the wing nut remains in place during lifting. It provides an additional level of safety by preventing accidental release of the shackle. Applications: Omega shackles with nut and cotter are widely used in industrial lifting applications and heavy-duty environments where heavy loads need to be lifted in a safe and controlled manner. In conclusion, wing shackles with a nut and cotter pin are essential devices for safely lifting loads. Their sturdy construction, load capacity, wing nut, and safety cotter pin are all crucial elements for ensuring safe and controlled lifting of loads. STRAIGHT SHACKLES THREADED PIN Straight shackles with threaded pin are lifting devices used to lift loads safely and in a controlled manner. They consist of a threaded pin, a lifting plate, and a wing nut. Below is a brief technical report on the main technical and functional aspects of straight shackles with threaded pin: Materials: Straight shackles with threaded pins are commonly made of high-strength alloy steel, which offers an optimal combination of strength and durability. The threaded pin, lifting plate, and wing nut are all made of steel to ensure the device's robustness. Load capacity: Each shackle has a maximum load capacity, which must be adhered to to ensure safety during use. This capacity depends on the size of the threaded pin and the strength of the materials used in the shackle's construction. Threading: The threads of the stud and wing nut must be machined with extreme precision to ensure adequate strength and secure installation. The threading must comply with relevant quality and safety standards. Applications: Straight shackles with threaded pin are widely used in industrial and lifting applications, such as securing loads on load-bearing structures or for lifting in heavy-duty environments. Safety: The use of straight shackles with threaded pins requires strict safety considerations. Operators must be trained in proper shackle installation and follow the manufacturer's instructions to ensure safe lifting of loads. In conclusion, straight shackles with threaded pins are essential lifting devices used in a wide range of industrial applications. Their robust construction, load capacity, thread precision, and attention to safety are all crucial to ensuring effective and safe lifting. STRAIGHT SHACKLES WITH NUT AND COTTER PIN Straight shackles with a nut and cotter pin are lifting devices used to lift loads safely and in a controlled manner. These shackles consist of a straight shackle, a nut, and a safety cotter pin. The straight shackle provides a secure attachment point for lifting loads, while the nut securely attaches the shackle to the lifting point. The safety cotter pin is an additional fastening device that ensures the nut remains in place during lifting, providing an additional level of safety. Straight shackles with nut and cotter pin are designed to distribute pressure evenly and reduce the risk of load damage during lifting. They are widely used in industrial lifting, construction, and heavy-duty applications where heavy loads must be lifted safely and in a controlled manner. Robust construction, maximum permissible load capacity and secure installation of straight shackles with nut and cotter pin are crucial elements in ensuring safe and controlled lifting of loads. These devices are an integral part of industrial lifting and hoisting operations, helping to ensure safety in the workplace. UNI GALVANIZED STRAIGHT SHACKLES 1947 THREADED PIN The UNI 1947 standard concerns lifting shackles, and more specifically, galvanized straight shackles. These shackles are designed for the safe lifting of loads and are manufactured in accordance with the specifications established by the UNI 1947 standard. Materials: UNI 1947 galvanized straight shackles are designed to withstand harsh and corrosive environments thanks to their galvanized coating, which provides protection against rust and corrosion. This makes them suitable for outdoor use and in humid environments. Applications: UNI 1947 galvanized straight shackles are widely used in a variety of industrial sectors, including heavy lifting and transport, construction, and manufacturing. Safety: Compliance with this regulation is essential to ensure worker safety and the protection of lifted loads. The UNI 1947 standard establishes the technical specifications and safety requirements for lifting shackles, including galvanized straight shackles. These requirements include maximum load capacity, material strength, safety factors, and compliance testing. Furthermore, the standard provides guidelines for the installation, use, and maintenance of lifting shackles to ensure safe and controlled lifting of loads. In conclusion, UNI 1947 galvanized straight shackles represent an important lifting tool in the industrial context, and compliance with this regulation is essential to ensure safe lifting and compliance with current regulations.

Accessori per il sollevamento di ogni tipo: brache, tiranti in fune, tiranti in catena, grilli ad omega, ganci, funi d'acciaio, anelli di sollevamento e molto altro. Materiali resistenti e certificati per garantire la massima sicurezza durante le operazioni di sollevamento. Offriamo una vasta gamma di prodotti, dalle brache di sollevamento ai ganci girevoli, per soddisfare le esigenze di ogni settore. LIFTING ACCESSORIES SHACKLES FOR LIFTING LIFTING EYEBOLT LIFTING HOOKS LIFTING LINKS LIFTING CHAINS CONNECTING LINKS WIRE ROPE THIMBLE WIRE ROPE CLAMPS TURNBUCKLES WIRE ROPE SLEEVES STAINLESS STEEL LIFTING AND ANCHORING ACCESSORIES Grilli per il sollevamento SHACKLES FOR LIFTING Lifting shackles, also known as screw shackles, are devices used to lift loads safely and in a controlled manner. They consist of a main body, a worm screw, and a locking mechanism. Below are some details on the main technical and functional aspects of lifting shackles: Maximum load: Lifting shackles are designed to safely lift heavy loads. Each shackle has a maximum load rating, which must be adhered to to avoid damage to the device or, worse, accidents. Materials and Construction: Lifting shackles are typically made of high-strength alloy steel, which offers an optimal combination of strength and durability. The worm gear is typically made of hardened alloy steel for maximum wear resistance. Locking Mechanism: Lifting shackles feature a locking mechanism that prevents accidental release of the load. This locking mechanism can be operated manually or automatically, depending on the shackle's specific design. Maintenance and Inspection: Lifting shackles must undergo regular maintenance and inspection procedures to ensure proper operation and operator safety. This may include lubricating the worm gear, checking the locking components, and verifying the load capacity. Safety: The use of lifting shackles requires strict safety precautions. Operators must be trained in the proper use of the shackle and be aware of the risks associated with lifting heavy loads. In conclusion, lifting shackles are essential devices for lifting heavy loads safely and in a controlled manner. Their design, materials, locking mechanisms, and maintenance are all crucial to ensuring safe and effective lifting. Golfari per il sollevamento LIFTING EYEBOLT Eyebolts are lifting devices with a ring-shaped structure that provide a secure attachment point for lifting loads. These devices are designed to be securely attached to a surface and provide a sturdy anchor point for attaching cables, chains, or other lifting equipment. Lifting rings are available in various shapes and sizes to suit a variety of lifting applications. They can be used in industrial, construction, maritime, and many other environments where loads must be lifted and transported safely and in a controlled manner. Some examples of eyebolt types include: Screw-in Eyebolts: These eyebolts have a thread and can be screwed securely into place on solid surfaces, such as steel beams or concrete. Welded Eyebolts: These eyebolts are welded directly to a structure or surface to provide a permanent lifting point. Folding Eyebolts: These eyebolts can be folded away when not in use, thus reducing the risk of obstructions in work areas. Lifting lugs are designed and manufactured in compliance with specific safety regulations to ensure safe lifting of loads. Before using lifting lugs, it is important to verify that they comply with regulations and are installed correctly to ensure safety in the workplace. In conclusion, lifting eyes are important devices for the safe lifting of loads and are widely used in a variety of industries and lifting applications. Ganci per il sollevamento LIFTING HOOKS Lifting hooks are essential devices used to lift loads safely and in a controlled manner in a variety of industrial and commercial settings. These hooks are designed to provide a sturdy and secure attachment point for cables, chains, or other lifting tools. They can be used in conjunction with cranes, winches, forklifts, and other lifting equipment. Here is some important information about lifting hooks: Hook Types: There are several types of lifting hooks, including eye hooks, clip hooks, tongue hooks, and other specialized designs to meet specific lifting needs. Materials: The lifting hooks are made of high-strength materials such as alloy steel or stainless steel to ensure durability and safety when lifting loads. Safety Regulations: Lifting hooks must comply with specific safety regulations and requirements to ensure safe lifting. These regulations establish requirements for the design, manufacturing, load capacity, and inspection of hooks. Maintenance: Regular inspection and maintenance of lifting hooks is essential to ensure they are in top condition. This includes checking for any signs of wear, damage, or deformation. Applications: Lifting hooks are widely used in industries such as construction, manufacturing, offshore, shipbuilding and many other industrial lifting applications. It is important to emphasize that the correct use of lifting hooks and compliance with safety regulations are essential to prevent accidents and ensure a safe working environment for operators involved in lifting loads. In conclusion, lifting hooks are essential components for many industrial lifting operations and must be used in accordance with safety regulations and best practices to ensure safe and reliable lifting of loads. Campanelle per il sollevamento LIFTING LINKS The lifting link (or master link) is a fundamental component used in slinging systems for the safe and controlled lifting of loads in industrial settings. This element is the main connection point between the lifting system (crane, hoist, or winch) and the chains or ropes used to support the load. The master link is designed to ensure high strength and uniform load distribution, ensuring stability during handling operations. It is commonly used in single- or multi-way sling configurations to accommodate a variety of operational needs. Some key features: Rugged Construction: Made of high-strength alloy steel, treated to withstand high loads and harsh operating conditions. Compatibility: Can be used with chains, ropes and lifting accessories in multiple configurations. Safety: Designed and manufactured according to international standards to ensure reliability and safety in lifting operations. Versatile use: used in sectors such as heavy industry, shipyards, port logistics, construction and industrial handling. Maintenance and inspections: Periodic inspections are required to check for any deformations, wear, or damage that may compromise operational safety. Correct use of the bell, together with compliance with safety procedures, is essential to ensure efficient and risk-free lifting operations for operators and equipment. LIFTING CHAINS Catene per il sollevamento Lifting chains compliant with EN 818-2 are an essential component in load handling and slinging systems, used for safe and controlled lifting operations in industrial and port environments. They form the supporting element of lifting slings and accessories connected to cranes, hoists, or other handling devices. The chain is designed to ensure high mechanical strength and reliability even in harsh operating conditions, ensuring uniform load distribution and stable behavior during lifting operations. Some key features: High-strength structure: made of heat-treated alloy steel, suitable for withstanding high loads and repeated dynamic stresses. Regulatory compliance: Manufactured in accordance with European standard EN 818-2, which defines dimensional, mechanical and safety requirements for chains intended for lifting purposes. High operational safety: each link is designed to guarantee certified load capacity and adequate safety factor during use. Compatibility: Can be used with hooks, shackles, bells, turnbuckles and other lifting accessories to create single or multi-way sling systems. Versatile use: used in sectors such as heavy industry, shipyards, port logistics, construction and industrial handling. Maintenance and inspections: Periodic checks must be carried out to identify any deformations, wear, corrosion or damage that could compromise safety of use. Proper use of the chain, together with compliance with operating procedures and load limits, is essential to ensure efficient and safe lifting operations for operators and equipment. Manicotti WIRE ROPE SLEEVES Wire rope sleeves are essential components used in lifting and anchoring systems to create secure terminations on steel ropes and cables. These elements allow for the creation of stable loops or connection points, ensuring a reliable connection between the rope and lifting or fastening accessories. The sleeves are designed to ensure high mechanical strength and operational safety, allowing the load to be transferred uniformly onto the rope after pressing or controlled deformation of the sleeve itself. Some key features: Durable construction: Generally made of aluminum or steel, materials chosen to ensure strength, durability, and reliability in industrial applications. Fixing function: they allow the creation of eye terminals on wire ropes, ensuring a stable connection with shackles, hooks or other lifting accessories. Operational safety: correct use and pressing performed with suitable equipment ensure high safety during lifting and anchoring operations. Wide range of applications: used in the industrial, naval, port, construction sectors and in all applications requiring wire ropes with reliable terminals. Inspections and maintenance: It is necessary to periodically check the condition of the sleeves and terminals to identify any deformations, corrosion or signs of wear that could compromise the safety of the system. The correct use of sleeves, together with compliance with safety regulations and procedures, allows for safe and long-lasting connection systems during lifting and load handling operations. WIRE ROPE THIMBLE Redance The wire rope thimble is a key component used in lifting and anchoring systems to protect and reinforce the loops made on steel wire ropes. This element is inserted inside the wire rope eyelet to maintain the correct shape of the loop and reduce wear caused by friction during use. The thimble is designed to provide cable protection and even load distribution, helping to improve the life of the rope and the overall safety of the lifting or anchoring system. Some key features: Durable structure: generally made of galvanized steel or stainless steel, materials that ensure mechanical resistance and protection against corrosion even in harsh environments. Rope protection: prevents crushing and excessive wear of the rope at the point of connection with hooks, shackles or other accessories. Operational safety: allows the correct geometry of the slot to be maintained, improving the reliability of the connection during lifting and fastening operations. Wide range of applications: used in the industrial, naval, port, construction sectors and in all applications involving the use of wire ropes. Checks and maintenance: it is important to periodically check the condition of the thimble and the rope to identify any deformations or signs of wear that could compromise the safety of the system. The correct use of thimbles, together with compliance with safety regulations and procedures, allows for reliable and long-lasting connection systems for lifting and handling loads. WIRE ROPE CLAMPS Morsetti Wire rope clamps are essential components used in lifting, anchoring, and tensioning systems to create secure connections between steel wire ropes and attachment points. These devices allow you to create terminals or loops on wire ropes, ensuring stable and controlled cable locking. The clamp is designed to ensure reliable mechanical hold and uniform load distribution, allowing the rope to maintain its working capacity during lifting or anchoring operations. Some key features: Heavy Duty Construction: Typically made of galvanized steel or high-strength steel, to ensure durability and corrosion protection even in harsh industrial environments. Effective clamping system: composed of a U-shaped arch, clamping plate and fixing nuts that allow the rope to be firmly locked, ensuring a stable connection. Operational safety: Correct assembly and tightening according to regulations ensures reliability in lifting and fastening applications. Versatile use: used in the industrial, construction, naval, port sectors and in all applications requiring secure fastening of wire ropes. Checks and maintenance: It is important to periodically check the correct tightening and condition of the terminals to identify any loosening, wear, or corrosion that could compromise the safety of the system. The correct use of clamps, together with compliance with safety procedures and relevant regulations, allows for the creation of reliable and safe connection systems during lifting and load handling operations. TURNBUCKLES Tenditori Turnbuckles are essential mechanical devices used in tensioning and anchoring systems to adjust and maintain the correct tension of ropes, cables, chains, and tie rods used in industrial, nautical, and structural applications. These components allow the tension of a system to be increased or decreased in a controlled manner, ensuring stability and safety during use. The tensioner is an adjustment element that allows you to compensate for any variations in length or settlement of the system, ensuring correct alignment and uniform distribution of the forces involved. Some key features: Durable structure: generally made of galvanized steel or stainless steel to ensure high mechanical resistance and protection against corrosion even in outdoor or marine environments. Efficient adjustment system: the threaded central body, combined with terminals with eyelets, hooks or forks, allows you to precisely adjust the tension of the cable or chain. Operational safety: Correct assembly and use ensure stability and reliability in anchoring and tensioning systems. Versatile use: used in the industrial, construction, naval, logistics sectors and in all applications requiring tensioning and stabilizing structures or loads. Checks and maintenance: It is important to periodically check the condition of the threads and connections to identify any signs of wear, deformation, or corrosion that could compromise the safety of the system. Proper use of tensioners, along with compliance with safety regulations and procedures, allows for the maintenance of reliable and long-lasting tensioning systems in industrial and structural operations. CONNECTING LINKS Maglie di giunzione Connecting links are essential components used in lifting and slinging systems to securely connect chains, slings, and other lifting accessories. These elements allow you to join or extend chains and connecting systems, ensuring structural continuity and reliability during load handling operations. The connecting link is a connection point designed to ensure high mechanical resistance and correct load distribution, maintaining stability and safety even in harsh operating conditions. Some key features: Rugged Construction: Made of high-strength alloy steel, heat-treated to withstand high loads and repeated stress. Secure connection system: Equipped with a pin or locking element that allows a reliable coupling between the connected chains or accessories. Operational safety: designed and manufactured according to international standards to ensure reliability and safety in lifting operations. Versatile use: used in sectors such as heavy industry, shipyards, port logistics, construction and industrial handling. Maintenance and inspections: Periodic inspections are required to ensure there are no deformations, wear, or damage that could compromise the safety of the system. The correct use of connecting links, along with compliance with safety procedures and relevant regulations, is essential to ensure efficient, safe and reliable lifting operations for operators and equipment. Linea Inox STAINLESS STEEL LIFTING AND ANCHORING ACCESSORIES Stainless steel lifting and anchoring accessories and components are essential elements used in harnessing and fastening systems to ensure safe and controlled handling operations in industrial and naval environments. These include turnbuckles, shackles, snap hooks, terminals, and hooks, used as connection points between ropes, chains, and anchoring structures. These components are designed to offer high mechanical resistance and correct load distribution, ensuring stability and reliability during lifting, tensioning and fastening operations. Some key features: Rugged Construction: Made of high-strength stainless steel, ideal for outdoor, marine and industrial environments where corrosion resistance and long operating life are required. Operational compatibility: can be used with wire ropes, chains and anchoring systems in multiple application configurations. Operational safety: designed and manufactured according to international standards to ensure reliability and safety in load handling and securing operations. Versatile use: widely used in the nautical, industrial, construction, port sectors and in all applications requiring reliable connection and tensioning systems. Maintenance and inspections: It is essential to perform periodic inspections to detect any signs of wear, deformation, or corrosion that could compromise the safety of the system. The correct use of connection and anchoring accessories, together with compliance with safety procedures, helps ensure efficient and safe operations, reducing risks to operators, loads, and equipment.

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Ganci di sollevamento in acciaio grado 80 per carichi pesanti. Ideali per l'industria e l'edilizia. Prodotti certificati, massima sicurezza. Acciaio forgiato, finitura zincata. Garanzia di qualità. Ganci a occhio, ganci a forcella STAINLESS STEEL LINE STAINLESS STEEL TENSIONER WITH TWO WELDED FORKS Stainless steel double-fork welded turnbuckles designed to allow the adjustment and tensioning of wire ropes and slings in fixed installations, ensuring a safe and resistant connection even in corrosive environments. Material: Made of AISI 316 stainless steel, suitable for applications in marine and industrial environments and in particularly aggressive atmospheric conditions. Standard finish: Corrosion-resistant stainless steel surface suitable for outdoor and marine use. Applications: Used for tensioning ropes and tie rods in static applications such as overhead lines, tensile structures, fences and fastening systems, where high corrosion resistance and long-term reliability are required. STAINLESS STEEL DOUBLE-EYE TENSIONER Stainless steel double-eye tensioners designed for adjusting and tensioning ropes and slings in fixed installations, ensuring a stable and safe connection even in environments exposed to corrosive agents. Material: Made of AISI 316 stainless steel, suitable for marine, industrial and aggressive atmospheric conditions applications. Standard finish: Corrosion-resistant stainless steel surface, suitable for outdoor and marine use. Applications: Used for tensioning steel wire ropes in static applications such as overhead lines, tensile structures, fences and fastening systems, where reliability and durability are required. STAINLESS STEEL EYE-HOOK TENSIONER Stainless steel eye-hook tensioners designed for adjusting and tensioning ropes and tie rods in fixed installations, allowing for a practical and easily removable connection thanks to the hook terminal. Material: Made of AISI 316 stainless steel, suitable for applications in marine, industrial environments and in aggressive atmospheric conditions. Applications: Used for tensioning steel wire ropes in static applications such as overhead lines, tensile structures, fences and fastening systems, where corrosion resistance and long-term reliability are required. TENDITORE INOX GANCIO-GANCIO Stainless steel hook-and-hook tensioners designed for adjusting and tensioning ropes and slings in fixed installations, allowing for quick connection at both ends thanks to the hook terminals. Material: Made of AISI 316 stainless steel, suitable for applications in marine, industrial environments and in aggressive atmospheric conditions. Applications: Used for tensioning steel wire ropes in static applications such as overhead lines, tensile structures, fences and fastening systems, where high corrosion resistance and long-term reliability are required. STAINLESS STEEL TERMINAL TO BE PRESSED WITH EYE Stainless steel press-fit terminal with eye designed for creating fixed ends on stainless steel ropes, ensuring a safe and stable connection in anchoring and tensioning systems. Material: AISI 316 stainless steel, suitable for applications in marine, industrial environments and in aggressive atmospheric conditions. Uses: Used for the creation of eyelets and connection points on stainless steel ropes by pressing with special machinery, ensuring high resistance to corrosion and reliability over time. STAINLESS STEEL PRESS-ON TERMINAL Stainless steel press-fit terminal designed for the creation of fixed ends on wire ropes, ensuring a safe and precise connection between the cable and the anchor points in structural applications. Material: AISI 316 stainless steel, suitable for marine, outdoor and architectural environments subject to corrosive agents. Uses: Applied to the ends of load-bearing cables as cable ends by pressing with special equipment, it allows for various types of attachment and interfacing with anchoring systems in structural and architectural applications. STRAIGHT STAINLESS STEEL SHACKLES Straight stainless steel shackles designed for the safe connection between ropes, thimbles and anchor points, ensuring reliability and resistance in environments subject to corrosion. Material: AISI 316 stainless steel, grade 5, suitable for nautical, industrial and outdoor applications. Regulations: Complies with EN 13889, which defines dimensional and performance requirements for shackles intended for lifting and anchoring. Use: Used to connect steel wire rope loops and thimbles to eyebolts and anchor points. The screw pin allows for quick and easy assembly. Particularly suitable for the nautical industry due to their resistance to marine environments and salt water. OMEGA STAINLESS STEEL CRICKETS Stainless steel omega shackles designed for the safe connection between ropes, thimbles, chains and anchor points, offering greater versatility thanks to the curved shape that allows for better load distribution. Material: AISI 316 stainless steel, grade 5, suitable for nautical, industrial and outdoor applications. Regulations: Complies with EN 13889, which establishes dimensional and performance requirements for shackles intended for lifting and anchoring. Use: Used to connect loops and thimbles of steel wire ropes, chains, and accessories to eyebolts and anchor points. The screw pin allows for quick and secure assembly. Particularly suitable for the nautical industry due to their resistance to marine environments and salt water. STAINLESS STEEL STRAIGHT SHACKLES, LONG TYPE Long type straight stainless steel shackles designed for connecting ropes, thimbles and accessories in larger spaces or configurations requiring a wider internal opening, ensuring stability and safety at the anchoring point. Material : AISI 316 stainless steel, grade 5, suitable for marine, industrial and outdoor applications. Regulations: Complies with EN 13889, which defines dimensional and performance requirements for shackles intended for lifting and anchoring. Application: Used to connect steel wire rope loops and thimbles to eyebolts and anchor points when greater internal clearance is required. The screw pin allows for quick and secure installation. Suitable for nautical applications due to their corrosion resistance in saltwater environments. STAINLESS STEEL CARABINERS Stainless steel carabiners designed as versatile fastening and anchoring systems, ideal for quickly connecting and disconnecting ropes, chains, straps and accessories in a variety of applications. Material: AISI 304 or AISI 316 stainless steel, suitable for indoor and outdoor use, with good corrosion resistance even in aggressive atmospheric conditions. Application: Used for general quick-release fastening applications in hobby and light professional settings, such as camping, hiking, fishing, pet accessories, backpacks, keychains, and outdoor or indoor gear. Not suitable for lifting. STAINLESS STEEL CARABINERS WITH SPECIAL OPENING Stainless steel carabiners with a special opening designed to allow quick and practical attachment and release, ensuring greater safety and ease of use compared to traditional systems. Material: AISI 316 stainless steel, suitable for outdoor and marine applications thanks to its high corrosion resistance. Application: Used as versatile fastening accessories for ropes, chains, and straps in hobby and light professional applications, such as camping, hiking, fishing, pet supplies, and outdoor or indoor equipment. Not suitable for lifting. MOSCHETTONI INOX RAPIDI CON GIRELLO Quick-release stainless steel carabiners with swivel designed to allow a secure connection and free rotation of the attachment point, reducing twisting and stress on ropes and accessories. Material: AISI 316 stainless steel, suitable for marine and industrial applications thanks to its high corrosion resistance. Use: Used for the quick connection of ropes, chains, and equipment in the nautical, construction, and sports industries. Suitable for applications on boats, diving equipment, and outdoor activities, where strength, reliability, and durability are required. Not suitable for lifting operations.

Ganci di sollevamento in acciaio grado 80 per carichi pesanti. Ideali per l'industria e l'edilizia. Prodotti certificati, massima sicurezza. Acciaio forgiato, finitura zincata. Garanzia di qualità. Ganci a occhio, ganci a forcella GRADE 80 LIFTING HOOKS GRADE 80 EYE SHORTENING HOOK Grade 80 eye shortening hook is a component used in lifting and lashing Product Features and Uses: The shortening hook is used to shorten lifting chains and chain links in slings, pendants, and chain slings. It is also used to construct ratchet chain tensioner anchoring systems to facilitate the positioning of Grade 80 chains. It is assembled with connecting links of the same size and capacity as the hook. Technical data: The hook is certified and CE marked. Ideal for tie rods and chain pendants. Weight: Varies depending on size. Available capacity: 2000 kg, 3150 kg, 5300 kg, 8000 kg, 12500 kg, 15000 kg, 21200 kg, 31500 kg. These hooks are essential to ensure safety and stability in lifting and anchoring systems. GRADE 80 FORK SHORTER HOOK Grade 80 Fork Shortening Hook is a component used in lifting and moving heavy loads. Material: It is made of grade 80 alloy steel, which is known for its strength and durability. Function: The fork shortening hook allows you to connect chains quickly and safely, without the use of additional joints. Markings: Fork shortening hooks feature markings such as the CE stamp, working load rating (WLL) and chain diameter. Correct use: Make sure that the shortening hooks are suspended or held in a way that promotes mobility around the support point. Periodically check the wear of the hooks and moving parts. Check that the hooks are correctly positioned before lifting the load. These hooks are ideal for applications where superior strength and increased security are required. GRADE 80 EYE HOOK WITH SHEET METAL SAFETY Grade 80 eye hook with sheet metal safety is a component used in lifting and moving heavy loads. Material: It is made of grade 80 alloy steel, known for its strength and durability. Safety device: This hook features a self-locking snap-lock device that opens outward. This additional mechanism ensures greater safety during use. Finish: The hook is painted to protect it from corrosion and wear. Correct use: Make sure that the hook is suspended or held in a way that allows for mobility around the support point. Periodically check the wear condition of the hook and safety device. Use the eye hook for both static loads (such as anchors and tensile structures) and dynamic loads (such as lifting). This hook is ideal for applications where superior strength and increased security are required. GRADE 80 FORK HOOK WITH SHEET METAL SAFETY Grade 80 Fork Hook with Sheet Metal Safety is a component used in lifting and moving heavy loads. Material: It is made of grade 80 alloy steel, known for its strength and durability. Safety device: This hook features a self-locking snap-lock device that opens outward. This additional mechanism ensures greater safety during use. Finish: The hook is painted to protect it from corrosion and wear. Correct use: Make sure the hook is suspended or held in such a way as to facilitate mobility around the support point. Periodically check the condition of the hook and safety device for wear. Use the fork hook for both static loads (such as anchors and tensile structures) and dynamic loads (such as lifting). This hook is ideal for applications where superior strength and increased security are required. GRADE 80 SWIVEL HOOK WITH SELF-LOCKING SAFETY Self-locking safety swivel hooks are designed to provide increased safety during lifting operations. Safety Device: These hooks are equipped with an automatic locking mechanism that prevents the load from accidentally releasing. Application: They are widely used in industrial lifting applications where safety is of primary importance. Special features: These hooks allow for easy attachment and removal of loads, but at the same time guarantee an additional level of safety thanks to the self-locking mechanism. Correct Use: Ensure that the hook is suspended or held in a way that allows for mobility around the support point. Periodically check the wear condition of the hook and safety device. Use the hook for both static loads (such as anchors and tensile structures) and dynamic loads (such as lifting). This hook is ideal for applications where superior strength and increased security are required. GRADE 80 SELF-LOCKING EYE HOOK The self-locking eye hook is a widely used component for lifting. Its main feature is its automatic closing: the hook does not open during loading, ensuring greater convenience and safety throughout the lifting operation. This type of hook allows for connection to chains or lifting ropes. Technical specifications of self-locking eye hooks: Grade 80: Made of alloy steel, these hooks can be assembled with connecting links and are CE marked, tested, and certified. Ideal for chain slings and chain slings. Load capacities range from 1120 kg to 15,000 kg. Correct Use: Ensure that the hook is suspended or held in a way that allows for mobility around the support point. Periodically check the hook and safety device for wear. Use the hook for both static loads (such as anchors and tensile structures) and dynamic loads (such as lifting). Self-locking eye hooks are reliable lifting tools and contribute to the safety of lifting operations. GRADE 80 FORK HOOK WITH SELF-LOCKING SAFETY The self-locking fork hook, or clevis, is a widely used lifting component. Its main feature is automatic locking: the hook does not open during loading, ensuring greater convenience and safety throughout the lifting operation. This type of hook can be connected to chains or lifting ropes. Technical specifications of self-locking fork hooks or clevis: Grade 80: Made of alloy steel, these hooks can be assembled with connecting links and are CE marked, tested, and certified. Ideal for chain slings and chain slings. Load capacities range from 1120 kg to 15,000 kg. Correct Use: Ensure that the hook is suspended or held in a way that allows for mobility around the support point. Periodically check the wear condition of the hook and safety device. Use the fork hook for both static loads (such as anchors and tensile structures) and dynamic loads (such as lifting). Self-locking fork hooks or clevises are reliable lifting tools and contribute to the safety of lifting operations. GRADE 80 FOUNDRY EYE HOOK A foundry eye hook is a tool used in foundries to lift and move loads. These hooks are typically designed to withstand the harsh conditions and high temperatures typical of foundry environments. Technical specifications of foundry eye hooks: Material: Grade 80 alloy steel. Chain diameter: varies from 6mm to 20mm. Capacity: from 1,000 kg to 12,500 kg. It is not recommended to use them for other purposes, as the absence of safety flaps represents a risk for operators . GRADE 80 FORK HOOK FOR FOUNDRY A foundry fork hook is a tool used in foundries to lift and move loads. These hooks are typically designed to withstand the harsh conditions and high temperatures typical of foundry environments. Technical specifications of foundry fork hooks: Proof load tested to 2.5 times the working load limit, in accordance with EN1677. Used in lifting chains certified to EN818-4. Components fully compliant with EN1677 standard Material: Grade 80 alloy steel. Chain diameter: varies from 6mm to 20mm. Capacity: from 1,000 kg to 12,500 kg. It is not recommended to use them for other purposes, as the absence of safety flaps represents a risk for operators.

Sicurezza garantita nei trasporti. Dispositivi di ancoraggio a cricchetto professionali per fissare carichi in modo affidabile. Certificati EN 12195. Proteggi i tuoi carichi durante il trasporto. I nostri cricchetti offrono un ancoraggio sicuro e resistente. Ideali per camion e furgoni. Assicura carichi di ogni dimensione con i nostri sistemi di ancoraggio a cricchetto. Nastro in poliestere ad alta tenacità, ganci robusti e facile utilizzo. RATCHETS AND ANCHORING DEVICES Ratchets are lifting and securing devices used to fasten loads safely. Below is some important information about ratchets: Function of ratchets: Ratchets are designed to adjust and maintain tension on cables, ropes, wire ropes, or other lifting and securing systems. They allow the load to be locked in position and ensure it remains stable during lifting and transport. Types of ratchets: There are different types of ratchets, including screw ratchets, lever ratchets, and chain ratchets. Each type has specific characteristics and particular applications. Screw ratchets are commonly used to adjust the tension of ropes or cables, while lever ratchets allow for quick and secure tightening. Inspection and maintenance: It is essential to regularly check the condition of ratchets to ensure they are in good working order. Verify that there are no signs of wear, breakage, or defects that could compromise safety during use. Lubricate the ratchet mechanisms to ensure smooth and effective operation. Safe use of ratchets: Ensure that ratchets are used in accordance with the manufacturer’s instructions and safety regulations. Check that the ratchets are correctly sized for the load to be lifted and that they are installed securely and stably. Record keeping and traceability: Record the inspections carried out on ratchets and the maintenance operations performed to ensure traceability and compliance with safety regulations. Keep documentation relating to ratchets for at least three years, as required by occupational safety regulations. Make sure to pay close attention to inspections, maintenance, and safe use of ratchets to ensure the safety and effectiveness of the lifting and securing systems in which they are used. H50 RATCHET H75 RATCHET A ratchet strap is a type of tie-down strap that uses a ratcheting mechanism to ensure safe and adjustable tension during the transport of loads. Operation: Ratchet straps consist of a strong strap made of materials such as polyester or nylon and a ratcheting mechanism that allows the strap to be tightened around the load. The ratchet allows the tension of the strap to be adjusted and keeps the load firmly secured during lifting and transport. Applications: Ratchet straps are widely used to secure loads on vehicles, trailers, ships, loading platforms, and in other contexts where goods must be transported safely and stably. Advantages: Adjustability: the ratcheting mechanism makes it easy to adjust the tension of the strap to suit the load. Safety: the ratchet system ensures that the strap remains firmly secured during transport, reducing the risk of accidental load movement. Maintenance: It is important to regularly check the condition of both the strap and the ratcheting mechanism to ensure they are in good condition and functioning correctly. Check for any signs of wear, damage, or defects that could compromise safety during use. Regulations and safety: Make sure to use ratchet straps in compliance with safety regulations and the manufacturer’s instructions to ensure safe operation and conformity with industry standards. Ratchet straps are effective tools for securing loads in various contexts. Be sure to follow the correct procedures for the use and maintenance of ratchet straps to ensure safety during load transport operations. The H75 ratchet strap is a device used for securing and transporting loads on vehicles, trailers, ships, or in other situations where it is necessary to safely fasten a load. Application: The H75 ratchet strap is used to securely fasten loads of various sizes and shapes during transport. Fastening method: The strap is wrapped around the load and then connected to the ratchet system to tighten and firmly lock the load in place. Adjustment: The ratchet allows the strap tension to be adjusted quickly and safely. Maximum load: Make sure to respect the maximum load capacity supported by the H75 ratchet strap to avoid damage or accidents. Advantages: Adjustability: the ratchet mechanism allows the strap tension to be easily adjusted to suit the load. Safety: the ratchet system ensures that the strap remains firmly secured during transport, reducing the risk of accidental load movement. Maintenance: Regularly check the condition of the strap and the ratchet to ensure they are in good condition and safe to use. Safety: Make sure to follow the manufacturer’s instructions and adopt all necessary safety measures during the use of the ratchet strap to prevent accidents. Ratchet straps are effective tools for securing loads in various contexts. Be sure to follow the correct procedures for the use and maintenance of ratchet straps to ensure safety during load transport operations.

Golfari e punti di ancoraggio per garantire la massima sicurezza nei tuoi lavori di sollevamento. Offriamo prodotti certificati e resistenti. Golfari girevoli, a saldare, con filettatura metrica o UNF: trova il punto di ancoraggio perfetto per le tue applicazioni. Consulenza tecnica gratuita per aiutarti a scegliere il prodotto più adatto. Punti di ancoraggio certificati secondo le normative europee. Materiali di alta qualità e lavorazioni precise per garantire la massima durata nel tempo. LIFTING EYEBOLTS DIN 580 GALVANIZED MALE EYEBOLT These male eyebolts are galvanized and made of C15E steel. They comply with the DIN 580 technical standard. Below are some common uses for zinc-plated DIN 580 male eyebolts: Lifting loads: Zinc-plated DIN 580 eyebolts are often used to lift loads in various industrial applications. They can be attached to load-bearing structures to allow the safe lifting of heavy objects. Fixing in corrosive environments: Thanks to the zinc coating, DIN 580 eyebolts are more resistant to corrosion. Therefore, they are ideal for use in environments where there may be exposure to humidity, weather, or corrosive substances. Marine applications: DIN 580 galvanized eyebolts are often used in marine environments due to their corrosion resistance. They can be used to secure equipment or for lifting purposes on boats or docks. Temporary Installations: These lifting lugs are useful for temporary installations where objects or structures need to be lifted or temporarily secured in a safe manner. Industrial and construction applications: DIN 580 galvanized eyebolts are widely used in industrial and construction applications for various lifting and fastening operations. Be sure to follow relevant safety guidelines and regulations when using DIN 580 zinc plated eyebolts to ensure safe and efficient use. DIN 582 GALVANIZED FEMALE EYEBOLT These female eyebolts are galvanized and made of C15E steel. They comply with the DIN 582 technical standard. Below are some common uses for zinc-plated DIN 582 female eyebolts: Lifting loads: Zinc-plated DIN 582 female eyebolts are often used to lift loads in various industrial applications. They can be attached to load-bearing structures to allow the safe lifting of heavy objects. Fixing in corrosive environments: Thanks to the zinc coating, DIN 582 female eyebolts are more resistant to corrosion. Therefore, they are ideal for use in environments where there may be exposure to humidity, atmospheric agents, or corrosive substances. Maritime applications: DIN 582 galvanized female eyebolts are often used in marine environments due to their corrosion resistance. They can be used to secure equipment or for lifting purposes on boats or docks. Temporary installations: These eyebolts are useful for temporary installations where objects or structures need to be lifted or temporarily secured safely. Industrial and construction applications: Zinc-plated DIN 582 female eyebolts are widely used in industrial and construction sectors for various lifting and fastening operations. Be sure to follow relevant safety guidelines and regulations when using DIN 582 galvanized female eyebolts to ensure safe and efficient use. GALVANIZED FEMALE EYE BOLTS WITH EXTENDED EYE – UNI 2948 Female eyebolts with extended eye are devices used for lifting and securing heavy loads in various industrial and construction applications. Here are some of the main characteristics of these components: Robust Design: The extended eye female lifting eyebolts are designed to withstand heavy loads and mechanical stress when lifting objects of various sizes. Elongated Eye Shape: The elongated eye shape of these lifting lugs allows for a wide range of movement and angles when lifting, providing flexibility in application. Durable Material: Typically made of galvanized steel or stainless steel, extended eye female eyebolts are durable and corrosion resistant, making them suitable for use in challenging environments. Versatile Use: They can be used to lift and secure loads in industrial, construction, and marine environments. They are often used for securing equipment, lifting materials, and for lashing applications. Safety Regulations: It is essential to follow safety regulations and manufacturer's recommendations when using extended eye female rings to ensure safe and reliable lifting. These components are crucial in many lifting and fastening operations and offer an excellent combination of strength, reliability and versatility. LONG FRENCH TYPE MALE EYEBOLT UNI EN 10084 French-type male eyebolts compliant with the UNI EN 10084 standard are commonly used in various situations and applications requiring lifting loads or securing components. Below are some of the main uses of French-type male eyebolts UNI EN 10084: Lifting loads: Eye bolts can be used to lift heavy loads in industrial settings such as workshops, construction sites, warehouses, and storage facilities. They can be connected to lifting devices such as cranes, winches, or crawler tracks. Component fastening: These eyebolts can be used to fasten structural components, industrial equipment, machinery, or systems. They can be used to create secure and durable anchor points. Marine applications: In the maritime and naval sectors, UNI EN 10084 French type male eyebolts are used for fastening equipment and structures on ships, boats and port facilities. Automotive Applications: They can also be used in the automotive sector for fastening components inside vehicles or for specific applications. Structural applications: In the building industry or in the construction of metal structures, the UNI EN 10084 French type male eyebolts can be used for fixing structural elements. In general, UNI EN 10084 French-type male eyebolts are designed to withstand mechanical stress and provide a safe and reliable anchor point in various situations. Choosing the appropriate eyebolt depends on the specific requirements of the application in which it will be used. GRADE 80 REVOLVING EYEBOLT WITH RING Grade 80 swivel ring eyebolts are components designed to lift heavy loads safely and reliably. Here's some important information about these eyebolts: Swivel Eyebolts: These are lifting elements that feature a swivel ring that allows for 360-degree rotation, offering flexibility in application and reducing the risk of twisting lifting cables or chains. Grade 80 Ring: Grade 80 refers to the strength and durability of the material used in the construction of the eyebolt. Grade 80 materials are known for their high tensile strength and deformation resistance, making them suitable for lifting heavy loads in harsh conditions. Some important features of grade 80 ring swivel eyebolts include: High Load Capacity: Grade 80 eyebolts are designed to lift heavy loads safely, providing higher load capacity than lower grade eyebolts. Reliability and Safety: Thanks to their robust design and material resistance, Grade 80 swivel eyebolts offer high reliability and safety during lifting operations. Free Rotation: The swivel ring allows the eyebolt to rotate freely, reducing stress on cables or chains and making it easier to position the load. Adaptability: These lifting eyes are suitable for a wide range of lifting applications, including industrial, construction, transportation and marine. In conclusion, Grade 80 swivel ring eyebolts are sturdy and reliable components used to lift heavy loads safely and efficiently, offering greater strength and load capacity than other types of eyebolts. GRADE 100 REVOLVING EYEBOLTS WITH RING Grade 100 Swivel Ring Eyebolts are lifting accessories used to connect loads in various industrial applications. These eyebolts are designed to withstand heavy loads and are used in conjunction with cables, chains, or other lifting devices. Here's some important information about these eyebolts: Durable Construction: Manufactured from high quality alloy steel with a grade 100 strength rating, these eyebolts are designed to withstand heavy loads and the most demanding working environments. Rotating ring: Featuring a swivel ring that allows for 360-degree rotation, they offer flexibility in connecting loads and minimize stress on cables or chains. Guaranteed safety: Tested and certified to ensure compliance with safety and strength regulations, these lifting lugs provide peace of mind during lifting operations. Various sizes available: Available in various sizes and load capacities to suit your specific lifting needs. Grade 100 Swivel Eyebolts with Ring are widely used in construction, industry, logistics, and transportation to lift and transport heavy loads safely and efficiently. They are ideal for applications such as lifting machinery, securing equipment, or transporting goods. GRADE 100 REVOLVING EYEBOLT WITH BRACKET Grade 100 swivel eyebolts are lifting devices used to lift and transport heavy loads safely and efficiently. Here's some important information about these eyebolts: Swivel Bracket: These swivel eyebolts are designed with a swivel bracket that allows the hook to rotate freely around its pivot, making it easy to lift and precisely position loads. The Grade 100 bracket designates the strength of the hook's construction, which can withstand loads of up to 100 tons. Heavy-duty construction: Grade 100 swivel eyebolts are typically made of high-strength alloy steel, which can withstand heavy loads and the stresses of lifting. This alloy steel is designed to provide high mechanical strength and good fatigue resistance, ensuring the safety and reliability of the lifting device. Grade 100 indicates the strength of the material used, which can withstand loads of up to 100 tons. Guaranteed Safety: The high-strength alloy steel used to construct the Grade 100 Swivel Eyebolts with Bracket is subjected to heat treatments and advanced manufacturing processes to ensure the highest quality and durability of the product. They are commonly used in industrial applications, construction, transportation and heavy lifting work. It is important to ensure that Grade 100 swivel eyebolts are used in accordance with safety regulations and are checked regularly to ensure operator safety and proper lifting. GRADE 100 SWIVEL EYEBOLTS WITH JOINT Grade 100 swivel eyebolts are lifting devices used to lift and transport heavy loads safely and efficiently. Here's some important information about these eyebolts: Swivel Bracket: These swivel eyebolts are designed with a swivel bracket that allows the hook to rotate freely around its pivot, making it easy to lift and precisely position loads. The Grade 100 bracket designates the strength of the hook's construction, which can withstand loads of up to 100 tons. Heavy-duty construction: Grade 100 swivel eyebolts are typically made of high-strength alloy steel, which can withstand heavy loads and the stresses of lifting. This alloy steel is designed to provide high mechanical strength and good fatigue resistance, ensuring the safety and reliability of the lifting device. Grade 100 indicates the strength of the material used, which can withstand loads of up to 100 tons. Guaranteed Safety: The high-strength alloy steel used to construct the Grade 100 Swivel Eyebolts with Bracket is subjected to heat treatments and advanced manufacturing processes to ensure the highest quality and durability of the product. They are commonly used in industrial applications, construction, transportation and heavy lifting work. It is important to ensure that Grade 100 swivel eyebolts are used in accordance with safety regulations and are checked regularly to ensure operator safety and proper lifting. GRADE 100 SINGLE BASE WELDING BRACKET EYEBOLT Grade 100 single-base weld-on eyebolts are lifting devices designed for permanent anchoring to metal structures, allowing for the safe lifting of heavy loads in industrial and marine applications. Here's some key information: Weldable structure: The eyebolt is equipped with a 20Mn2 AISI 1320 – class 5 weldable steel bracket, designed to be welded directly to the supporting structure. The bracket must always be aligned with the direction of the load, with an admissible tolerance of ±10°, to ensure correct and safe use. High-strength construction: The ring is made of 35CrMo AISI 4135 steel – class 8, a high-strength alloy material suitable for heavy-duty applications. The safety factor is 4:1, in compliance with the typical requirements of professional lifting systems. Finish and reliability: Painted externally with a raw bracket to allow welding, these lifting eyes are designed to offer high resistance to dynamic stresses and fatigue during lifting operations. They are used for lifting loads in the industrial and naval sectors, where a fixed, robust anchor point compliant with safety standards is required for high-performance applications.

Produciamo bilancini per il sollevamento su misura per le tue esigenze. Soluzioni personalizzate per ottimizzare i tuoi processi produttivi. Richiedi un preventivo gratuito. Bilancini per il sollevamento a prezzi imbattibili. Ampia scelta di bilancini per ogni tipologia di carico. LIFTING BEAMS Lifting beams, or load-lifting beams, are equipment used to evenly distribute the weight of a load along a support structure. Here's some important information about lifting beams: Operation: Lifting bars are designed to allow the safe lifting and moving of heavy objects by distributing the weight evenly along their length. This helps prevent excessive imbalance and ensures safe lifting. Applications: Used in industrial environments, warehouses, construction sites and workshops to lift and transport heavy loads efficiently and safely. Ideal for lifting long, heavy objects such as beams, pipes, metal profiles and other similar materials. Types: Fork Barbells: Consisting of two arms with forked ends to support the load in a balanced manner. Adjustable Balancers: Equipped with adjustment mechanisms to adapt to different load lengths. Lifting Hook Barbells: Equipped with hooks for safely lifting and transporting loads. Benefits: They help prevent damage to loads due to excessive stress or imbalance. They facilitate the safe and efficient lifting and moving of long, bulky loads. They improve workplace safety by reducing the risk of accidents related to heavy lifting. Lifting beams are essential tools in a variety of industries and handling operations, allowing heavy items to be handled safely and efficiently, reducing the risk of damage and accidents in the workplace. SINGLE BEAM BALANCE BEAM A “single-beam spreader bar” (or monobeam spreader) is a specific type of equipment used for lifting loads. Below is some information about a single-beam spreader bar: Definition: A single-beam spreader bar is a lifting beam consisting of a single beam designed to support and lift loads in a controlled and safe manner. Features: Monoblock structure: The beam consists of a single structure with no moving parts or complex joints. Lifting capacity: Single-beam spreader bars are designed to lift heavy loads evenly along their length. Ease of use : They are designed to be easy to handle and operate, offering a simple solution for load lifting. Applications: Industrial environments: Used in factories, warehouses, and construction sites to lift and transport heavy loads efficiently. Material handling: Ideal for lifting beams, metal profiles, pipes, and other long and heavy materials. Advantages: Safety: They help ensure safe and controlled lifting of loads. Efficiency: They allow heavy loads to be lifted and moved quickly and efficiently. Reliability: Thanks to their robust structure, single-beam spreader bars are designed to last over time and withstand wear. Single-beam spreader bars are a common solution for lifting heavy loads in various industrial settings. They provide a simple and effective way to manage the lifting and transport of long and heavy materials safely and in a controlled manner. "H" BALANCE BEAM "H-beams" are equipment used to lift and transport heavy loads safely and efficiently. Here's some information about these special beams: H-Shaped Design: These lifting beams are designed with a structure resembling the letter "H," with a central horizontal beam and two vertical arms extending downward. This design provides stability and strength for lifting heavy loads. Operation: The central horizontal beam acts as an anchor point for lifting the load. The vertical arms are designed to evenly distribute the weight of the load along their length, ensuring a balanced lift. Applications: Used in industrial environments, construction sites and warehouses to lift and transport heavy loads such as beams, long and bulky materials. Ideal for lifting loads that require even weight distribution to avoid excessive imbalances. Advantages: Stability: The H-shaped design provides a stable base for lifting heavy loads. Safety: They help prevent accidents due to imbalances or overloads during lifting. Efficiency: They allow you to lift and transport loads efficiently, reducing the risk of damage to materials and improving productivity. H-beam spreader bars are essential tools for lifting heavy loads that require even weight distribution. Thanks to their robust design and ability to provide balanced lifting, they are widely used in various industries to safely and efficiently transport heavy materials. ADJUSTABLE BALANCE BAR “Adjustable lifting beams or spreader beams” are versatile pieces of equipment used for lifting and transporting loads in a customizable way, adaptable to specific requirements. Below is some information about these lifting beams: Features: Adjustability: Adjustable lifting beams are designed so that the beam length can be modified to suit different load dimensions. Versatility: They allow the equipment to be customized according to the weight and size of the load to be lifted. Adaptability : They can be used to lift different types of loads, providing greater operational flexibility. Operation: The user can adjust the length of the beam or the arms of the spreader according to the specifications of the load to be lifted. This adjustment ensures balanced and safe lifting, regardless of the load size. Applications: Used in industrial environments, mechanical workshops, warehouses, and construction sites to lift loads of various sizes and weights. Ideal for situations where flexibility is required when lifting loads of different types. Advantages: Customization: Allows the equipment to be adapted to the specific requirements of the load to be lifted. Efficiency: Optimizes the lifting process, ensuring safe and controlled operation. Versatility : Can be used for a wide range of loads, offering an adaptable and flexible solution. Adjustable lifting beams are practical and versatile tools that allow loads to be lifted and transported safely and in a customized manner. Thanks to their adjustability and adaptability, they are ideal for situations where loads of different sizes and shapes must be handled easily and efficiently.

I nostri tiranti in fune d'acciaio offrono la massima resistenza e flessibilità per sollevamenti industriali e navali. Realizzati con materiali di alta qualità e disponibili in diverse configurazioni per soddisfare ogni esigenza. STEEL ROPE LIFTING RODS TECHNICAL SPECIFICATIONS OF STEEL ROPE TIE RODS These lifting slings can be made with slots (inside which thimbles can be inserted to protect them from wear) or with lifting accessories including: Aluminum alloy sleeves pressed with special molds. With hand splicing, that is, with the interweaving of the strands that make up the rope and the disappearance of the same in staggered steps. With recomposed loops, dividing the end of the rope, recomposing the two halves opposite each other and closing the ends with pressed conical sleeves. Continuous steel wire rope rings, highly flexible and suitable for high loads without having to opt for a larger nominal diameter of the rope at the connection point. EEC directives 91/368 require that all lifting equipment must be equipped with appropriate plates (metallic or plastic) showing: > Manufacturer's name and brand > The scope > The length > Number of arms > The certificate number All this information must always be reported on the certificate of conformity issued upon delivery to the customer. CAPACITY OF STEEL ROPE TIE RODS WITH TEXTILE CORE LOAD CAPACITY OF STEEL ROPE TIE RODS WITH METAL CORE Use and Maintenance of Steel Wire Ropes and Steel Wire Rope Slings What follows is a brief summary of the basic information required to safely use steel wire ropes and steel wire rope slings. Nominal Strength A steel wire rope will fail if it is worn, overloaded, improperly used, damaged, or not properly maintained. In service, a steel wire rope loses strength and working capacity. Abuse and improper use accelerate this loss. The nominal strength of a steel wire rope applies only to a new, unused rope. The nominal strength should be considered as the straight-line pull that will actually break a new, unused rope. The nominal strength of a steel wire rope should never be used as the working load limit. Working Load To determine the working load of a steel wire rope, the nominal strength must be reduced by a design factor. The design factor will vary depending on the type of machine and installation, and on the work being performed. It is necessary to determine the design factor applicable to your specific use. For example, a design factor of “5” means that the nominal strength of the steel wire rope must be divided by five to determine the maximum load that can be applied to the rope system. Design factors have been established by CEN, OSHA, ANSI, ASME, and similar governmental and industrial organizations. No steel wire rope or steel wire rope sling should ever be installed or used without full knowledge and consideration of the design factor for the application. Reduction of Working Load Steel wire ropes wear over time. Rope strength begins to decrease as soon as the rope is put into service and continues to decrease with each use. Never overload a steel wire rope. This means never using the rope with a load greater than the working load. Never “shock load” a steel wire rope. A sudden application of force or load can cause visible external damage as well as internal damage. There is no practical way to estimate the force applied by shock loading a rope. The sudden release of a load can also damage a steel wire rope. Inspection and Maintenance Lubricant is applied to the wires and strands of a steel wire rope or steel wire rope sling during manufacture. This lubricant is depleted when the rope is in service and should be periodically replaced. Regular and periodic inspections of the steel wire rope, along with the maintenance of permanent records signed by a qualified person, are required for almost all steel wire rope installations. The purpose of inspection is to determine whether a steel wire rope or steel wire rope sling can continue to be safely used for that application. Inspection criteria—including the number and location of broken wires, wear, and elongation—have been established by CEN, OSHA, ANSI, ASME, and similar organizations. When in doubt, replace the rope. An inspection should include verification that none of the removal criteria specified for that application are met, checking for example: Surface wear: normal and abnormal Broken wires: number and location Reduction in diameter Rope elongation TABLE OF CAPACITIES AND SAFETY COEFFICIENTS FOUR-ARM STEEL ROPE TIE ROD Lifting ties