Productbeschrijving
Productbeschrijving
- Design adjust-ability (cut-to-length) capabilities.
- Interchangeability to fit with most competitor models.
- Tri-lobe, lemon, and star shaft profiles available.
- Easy lock guard construction allows quick and easy assembly or removal with a simple tool such as a key, coin or screwdriver.
- Available €extended lubrication E-kits reduce downtime with lubrication intervals of 50-250
hours and the high temperature triple lip seal retains grease better. - Customer dedicated engineering and sales support.
Productparameters
Drivelines are furnished without Cross & Bearing Kit and Outboard Yokes. Select kit and outboard yokes as required. When cross & bearing kit and outboard yokes are assembled, the overall compressed length of the driveline will be 39″, 48″ or 60″.
| Tractor Yoke | Overall Compressed Length Dim. “A” |
Max Running Lengte | Implement Yoke | Sollicitatie | |
| 1405711 | 1 3/8″ × 6 Spl. Q.D. | 31″ | 40″ | ||
| 1405715 | 1 3/8″ × 6 Spl. Q.D. | 35″ | 47″ | ||
| 140 0571 8 | 1 3/8″ × 6 Spl. Q.D. | 48″ | 72″ | ||
| 140 0571 0 | 1 3/8″ × 6 Spl. Q.D. | 60″ | 96″ | ||
| 14013548 | 48″ | 72″ | |||
| 14013560 | 60″ | 96″ | |||
| 14571539 (with crosses installed) | 39″ | 51″ | |||
| 14571548 (with crosses installed) | 48″ | 72″ | |||
| 140 0571 7 | 1 3/8″ × 6 Spl. Q.D. | 64 7/8″ | 88 7/8″ | 1 3/8″ Round 1/2″ Shear Pin Hole | 7 ft. Pull Type Rotary Cutter |
| 145714 | 1 3/8″ × 6 Spl. Q.D. | 48″ | 71 3/4″ | 1 1/2″ Round 3/8″ Keyway | Pumps |
| 1405716 | 1 3/8″ × 6 Spl. Safety Slide Lock | 36″ | 47 3/4″ | 1 3/8″ × 6 Spl. Safety Slide Lock | All Purpose |
| 14013531 | 1 3/8″ × 21 Spl. Safety Slide Lock | 31″ | 44″ | 1 1/8″ Hex Clamp | Combine Header |
Certificeringen
Related products
|
Cross Kit/ Universal Joint
|
Tube
|
Shaft Shield Guard
|
Yoke
|
|
Torque Limiter
|
PTO Spline & Adaptor & Hub |
Universal Coupling
|
Wide Angle Joint
|
Bedrijfsprofiel
As a China PTO shaft manufacturer, we have the following advantages:
- High quality products: We use the most advanced technology and materials to ensure that the PTO shafts we produce have excellent quality and durability.
- Comprehensive product line: Our PTO shafts cover a variety of types and sizes to meet the needs of different customers.
- Customized service: We can produce customized PTO shaft products according to the specific needs of customers, thereby ensuring that customer requirements are met.
- Fast delivery time: Our production line operates efficiently and can quickly respond to customer needs, ensuring rapid delivery of PTO shaft products.
- Professional technical support: We have a professional technical team that can provide customers with various technical support and consulting services to ensure that customers receive the best solution.
We welcome you to our PTO shaft production factory in China. We are 1 of the largest China PTO shaft manufacturers , focusing on providing customers with high-quality and high-performance PTO shaft. We are an experienced manufacturer dedicated to producing high-quality PTO shafts to help customers successfully complete their various projects.
We are committed to using the most advanced technology and equipment to ensure that the PTO shafts we produce have excellent quality and reliability, to ensure that customers receive the best performance and service life. Our team is composed of experienced professionals who can tailor the PTO shaft to the customer’s needs to best meet their specific requirements.
In addition, our factory has a strict quality management system to ensure that each PTO shaft meets industry standards and passes all necessary quality tests. We have first-class after-sales service and will make every effort to ensure customer satisfaction.
We look CHINAMFG to working with you and manufacturing high-quality PTO shafts for you to help your project achieve greater success. If you have any questions about our factory, please feel free to contact us.
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| Materiaal: | Koolstofstaal |
|---|---|
| Laden: | Aandrijfas |
| Stijfheid en flexibiliteit: | Flexible Shaft |
| Dimensionale nauwkeurigheid van de asdiameter: | IT6-IT9 |
| Asvorm: | Rechte as |
| Schachtvorm: | Real Axis |
| Voorbeelden: |
US$ 9999/Piece
1 stuk (minimale bestelling) | |
|---|
How do PTO shafts ensure efficient power transfer while maintaining safety?
PTO (Power Take-Off) shafts play a crucial role in ensuring efficient power transfer from a power source to driven machinery or equipment, while also maintaining safety. These shafts are designed with various features and mechanisms to optimize power transmission efficiency and mitigate potential hazards. Here’s a detailed explanation of how PTO shafts achieve efficient power transfer while prioritizing safety:
1. Mechanical Power Transmission: PTO shafts serve as mechanical linkages between the power source, typically a tractor or engine, and the driven machinery. They transmit rotational power from the power source to the equipment, enabling efficient transfer of energy. The mechanical design of PTO shafts, including their diameter, length, and material composition, is optimized to minimize power losses during transmission, ensuring that a significant portion of the power generated by the source is effectively delivered to the machinery.
2. Universal Joints and Flexible Couplings: PTO shafts are equipped with universal joints and flexible couplings that allow for angular misalignment and flexibility in movement. Universal joints accommodate variations in the alignment between the power source and the driven machinery, enabling smooth power transfer even when the two components are not perfectly aligned. Flexible couplings help to compensate for slight misalignments, reduce vibration, and prevent excessive stress on the shaft and connected components, thereby enhancing efficiency and reducing the risk of mechanical failure or damage.
3. Homokinetische koppelingen (CV-koppelingen): CV joints are often used in PTO shafts to maintain constant speed and torque transfer, particularly in applications where the driven machinery requires flexibility or operates at different angles. CV joints allow for smooth power transmission without significant fluctuations, even when the driven machinery is at an angle relative to the power source. By minimizing speed variations and power loss due to changing angles, CV joints contribute to efficient power transfer while ensuring consistent performance and reducing the likelihood of mechanical stress or premature wear.
4. Safety Guards and Shields: Safety is a paramount consideration in the design of PTO shafts. Protective guards and shields are installed to cover the rotating shaft and other moving parts. These guards act as physical barriers to prevent accidental contact with the rotating components, significantly reducing the risk of entanglement, injury, or damage. Safety guards are typically made of durable materials such as metal or plastic and are designed to allow the necessary movement for power transmission while providing adequate protection. Regular inspection and maintenance of these guards are crucial to ensure their effectiveness in maintaining safety.
5. Shear Bolt or Slip Clutch Mechanisms: PTO shafts often incorporate shear bolt or slip clutch mechanisms as safety features to protect the driveline components and prevent damage in case of excessive torque or sudden resistance. Shear bolts are designed to shear or break when the torque exceeds a predetermined threshold, disconnecting the PTO shaft from the power source. This helps prevent damage to the shaft, driven machinery, and power source. Slip clutches work similarly by allowing the PTO shaft to slip when excessive resistance is encountered, protecting the components from overload. These mechanisms act as safety measures to maintain the integrity of the PTO shaft and associated equipment while minimizing the risk of mechanical failures or accidents.
6. Compliance with Safety Standards: PTO shafts are designed and manufactured to comply with relevant safety standards and regulations. Manufacturers follow guidelines and requirements set by organizations such as the American Society of Agricultural and Biological Engineers (ASABE) or other regional safety authorities. Compliance with these standards ensures that PTO shafts meet specific safety criteria, including torque capacity, guard design, and other safety considerations. Users can rely on standardized PTO shafts that have undergone testing and certification, providing an additional layer of assurance regarding their safety and performance.
7. Operator Education and Training: To ensure safe and efficient operation, it is essential for operators to receive proper education and training on PTO shafts. Operators should be familiar with the specific safety features, maintenance requirements, and safe operating procedures for the PTO shafts used in their applications. This includes understanding the importance of using appropriate personal protective equipment, regularly inspecting the equipment for wear or damage, and following recommended maintenance schedules. Operator awareness and adherence to safety protocols significantly contribute to maintaining a safe working environment and maximizing the efficiency of power transfer.
In summary, PTO shafts ensure efficient power transfer while maintaining safety through their mechanical design, incorporation of universal joints and CV joints, installation of safety guards and shields, implementation of shear bolt or slip clutch mechanisms, compliance with safety standards, and operator education. By combining these features and practices, PTO shafts provide reliable and secure power transmission, minimizing power losses and potential risks associated with their operation.
How do PTO shafts contribute to the efficiency of agricultural operations?
Power Take-Off (PTO) shafts play a crucial role in improving the efficiency of agricultural operations by providing a versatile and reliable power source for various farming equipment. PTO shafts allow agricultural machinery to access power from tractors or other prime movers, enabling the efficient transfer of energy to perform a wide range of tasks. Here’s a detailed explanation of how PTO shafts contribute to the efficiency of agricultural operations:
1. Versatility: PTO shafts offer versatility by allowing the connection of different types of implements and machinery to tractors or other power sources. This versatility enables farmers to use a single power unit, such as a tractor, to operate multiple agricultural implements, including mowers, balers, tillers, seeders, sprayers, and more. The ability to quickly switch between various implements using a PTO shaft minimizes downtime and maximizes efficiency in agricultural operations.
2. Power Transfer: PTO shafts efficiently transfer power from the tractor’s engine to the agricultural implements. The rotating power generated by the engine is transmitted through the PTO shaft to drive the machinery connected to it. This direct power transfer eliminates the need for separate engines or motors on each implement, reducing equipment costs and maintenance requirements. PTO shafts ensure a reliable power supply, allowing agricultural operations to be carried out efficiently and effectively.
3. Increased Productivity: By utilizing PTO shafts, agricultural operations can be performed more quickly and efficiently than manual or alternative power methods. PTO-driven machinery typically operates at higher speeds and with greater power compared to human-operated or manual tools. This increased productivity allows farmers to complete tasks such as tilling, seeding, harvesting, and material handling more efficiently, reducing labor requirements and increasing overall farm productivity.
4. Time Savings: PTO shafts contribute to time savings in agricultural operations. The ability to connect and disconnect implements quickly using standardized PTO shafts allows farmers to switch between tasks rapidly. This saves time during equipment setup, as well as when transitioning between different operations in the field. Time efficiency is particularly valuable during critical farming periods, such as planting or harvesting, where timely execution is essential for optimal crop yield and quality.
5. Reduced Manual Labor: PTO shafts minimize the need for manual labor in strenuous or repetitive tasks. By harnessing the power of tractors or other prime movers, farmers can mechanize various operations that would otherwise require significant physical effort. Agricultural implements driven by PTO shafts can perform tasks such as plowing, mowing, and baling with minimal human intervention, reducing labor costs and improving overall efficiency.
6. Precision and Consistency: PTO shafts contribute to precision and consistency in agricultural operations. The consistent power supply from the PTO ensures uniform operation and performance of the connected machinery. This helps in achieving consistent seed placement, even spreading of fertilizers or chemicals, and precise cutting or harvesting of crops. Precision and consistency lead to improved crop quality, enhanced yield, and reduced waste, ultimately contributing to the overall efficiency of agricultural operations.
7. Adaptability to Various Terrain: PTO-driven machinery is highly adaptable to various types of terrain encountered in agricultural operations. Tractors equipped with PTO shafts can traverse uneven or challenging terrain, allowing implements to operate effectively on slopes, rough fields, or hilly landscapes. This adaptability ensures that farmers can efficiently manage their land, regardless of topographical challenges, enhancing operational efficiency and productivity.
8. Integration with Automation and Technology: PTO shafts can be integrated with automation and technology advancements in modern agricultural practices. Automation systems, such as precision guidance and control, can be synchronized with PTO-driven machinery to optimize operations and minimize waste. Additionally, advancements in data collection and analysis allow farmers to monitor and optimize machine performance, fuel efficiency, and productivity, further enhancing the efficiency of agricultural operations.
By providing versatility, efficient power transfer, increased productivity, time savings, reduced manual labor, precision, adaptability to terrain, and integration with automation and technology, PTO shafts significantly contribute to enhancing the efficiency of agricultural operations. They enable farmers to perform a wide range of tasks with ease, ultimately improving productivity, reducing costs, and supporting sustainable farming practices.
Hoe gaan aftakasassen om met variaties in snelheid en koppel?
PTO-assen (Power Take-Off-assen) zijn ontworpen om variaties in snelheid en koppel tussen de krachtbron (zoals een tractor of motor) en de aangedreven machine of apparatuur op te vangen. Ze bevatten diverse mechanismen en componenten om een efficiënte krachtoverbrenging te garanderen en tegelijkertijd aan de verschillende snelheids- en koppelvereisten te voldoen. Hieronder volgt een gedetailleerde uitleg over hoe PTO-assen variaties in snelheid en koppel verwerken:
1. Versnellingsbaksystemen: Aftakasassen zijn vaak voorzien van een versnellingsbak om de snelheid en het koppel van de aandrijfbron af te stemmen op de aangedreven machine. Versnellingsbakken maken snelheidsverlaging of -verhoging mogelijk en kunnen indien nodig ook de draairichting veranderen. Door verschillende overbrengingsverhoudingen te gebruiken, kunnen aftakasassen de rotatiesnelheid en het koppel aanpassen aan de specifieke eisen van de aangedreven machine. Versnellingsbaksystemen zorgen ervoor dat aftakasassen de benodigde kracht en snelheidscompatibiliteit bieden tussen de aandrijfbron en de machines die ze aandrijven.
2. Afschuifboutmechanismen: Sommige aftakasassen, met name in toepassingen waar plotselinge overbelasting of schokbelasting te verwachten is, maken gebruik van afschuifboutmechanismen. Deze mechanismen zijn ontworpen om de aandrijflijncomponenten te beschermen tegen schade door de aftakas los te koppelen in geval van overmatig koppel of plotselinge weerstand. Afschuifbouten zijn ontworpen om te breken bij een specifieke koppeldrempel, waardoor de aftakas loskoppelt voordat de aandrijflijncomponenten beschadigd raken. Door afschuifboutmechanismen toe te passen, kunnen aftakasassen variaties in koppelvereisten aan en bieden ze een veiligheidsvoorziening ter bescherming van de apparatuur.
3. Wrijvingskoppelingen: Aftakasassen kunnen frictiekoppelingen bevatten om een soepele in- en uitschakeling van de krachtoverbrenging mogelijk te maken. Frictiekoppelingen maken gebruik van een schijf- en drukplaatmechanisme om de krachtoverbrenging te regelen. Gebruikers kunnen de krachtoverbrenging geleidelijk in- of uitschakelen door de druk op de frictieschijf aan te passen. Deze functie maakt een nauwkeurige controle van de koppeloverdracht mogelijk, waardoor variaties in koppelbehoefte kunnen worden opgevangen en schokbelastingen op de aandrijflijncomponenten tot een minimum worden beperkt. Frictiekoppelingen worden veelvuldig gebruikt in toepassingen waar een soepele krachtoverbrenging essentieel is, zoals in hydraulische pompen, generatoren en industriële mixers.
4. Homokinetische koppelingen (CV-koppelingen): In gevallen waarin de aangedreven machine een aanzienlijk bewegingsbereik of grote scharnierhoek vereist, kunnen aftakasassen worden voorzien van homokinetische koppelingen (CV-koppelingen). CV-koppelingen zorgen ervoor dat de aftakas uitlijningsafwijkingen en hoekvariaties kan opvangen zonder de krachtoverbrenging te beïnvloeden. Deze koppelingen zorgen voor een soepele en constante krachtoverdracht, zelfs wanneer de aangedreven machine zich onder een hoek ten opzichte van de krachtbron bevindt. CV-koppelingen worden veelvuldig gebruikt in toepassingen zoals knikladers, verreikers en zelfrijdende sproeimachines, waar de machines flexibiliteit en een groot bewegingsbereik vereisen.
5. Telescopische ontwerpen: Sommige aftakasassen hebben een telescopisch ontwerp waarmee de lengte kan worden aangepast. Deze assen bestaan uit twee of meer concentrische assen die in elkaar schuiven, waardoor de aftakas naar behoefte kan worden verlengd of ingetrokken. Telescopische ontwerpen compenseren variaties in de afstand tussen de krachtbron en de aangedreven machine. Door de lengte van de aftakas aan te passen, kunnen gebruikers een juiste krachtoverbrenging garanderen zonder het risico dat de as over de grond sleept of te kort is om de machine te bereiken. Telescopische aftakasassen worden veel gebruikt in toepassingen waar de afstand tussen de krachtbron en het werktuig varieert, zoals bij frontaangedreven werktuigen, sneeuwblazers en zelfladende wagens.
Door deze mechanismen en ontwerpen toe te passen, kunnen aftakasassen variaties in snelheid en koppel effectief verwerken. Ze bieden de nodige flexibiliteit, veiligheid en controle om een efficiënte krachtoverbrenging tussen de krachtbron en de aangedreven machine te garanderen. Aftakasassen spelen een cruciale rol bij het aanpassen van het vermogen aan de specifieke behoeften van diverse apparatuur en toepassingen.
editor by CX 2024-03-27
