Produktbeskrivning
Produktbeskrivning
King Steel can supply you a variety of standard spline shafts to choose from, some applications require a custom spline shaft. Industry applications include construction, steel and mining.
Our Shafts
* Involute Spline Shafts
* Straight Sided Spline Shafts
* Metric Spline Shafts
Specification:
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Product name |
Spline shaft |
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Material |
Carbon steel,Alloy steel |
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Structure |
Forging |
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Behandla |
Lathing, milling,grinding,drilling |
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Heat treatment |
mechanical property up to FB12007 after Quenching and tempering |
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Max.diameter |
900mm |
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Max.length |
4913mm |
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Max.tolerance |
±0.2 |
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Weight |
484kg |
We can customize spline shafts as per client’s specifications and requirements.
Manufacturing process:
Rraw matrial — Forging testing– Turning — Drilling — Heat Treatment — Milling– Grinding — Shaping and hobbing Process — Packing — Shipping.
After Sales Service
1. OEM and customized service.
2. Full machining, primer coating, surface treatment.
3. Complete material testing process.
4. Quality control
Contact us
Please contact us for more information and quotations.
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| Material: | Alloy Steel |
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| Load: | Drive Shaft |
| Stiffness & Flexibility: | Stiffness / Rigid Axle |
| Anpassning: |
Tillgänglig
| Anpassad förfrågan |
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.shipping-cost-tm .tm-status-off{bakgrund: ingen;fyllning: 0;färg: #1470cc}
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Fraktkostnad:
Beräknad frakt per enhet. |
om fraktkostnad och beräknad leveranstid. |
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| Betalningsmetod: |
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Första betalningen Full betalning |
| Valuta: | US$ |
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| Retur och återbetalning: | Du kan ansöka om återbetalning upp till 30 dagar efter att du mottagit produkterna. |
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Vilka faktorer bör man beakta när man väljer rätt kraftuttagsaxel för en applikation?
När man väljer rätt kraftuttagsaxel (PTO) för en tillämpning måste flera faktorer beaktas för att säkerställa optimal prestanda, säkerhet och kompatibilitet. Kraftuttagsaxlar är viktiga komponenter som överför kraft från en kraftkälla till drivna maskiner eller utrustning. Här är de viktigaste faktorerna att beakta när man väljer lämplig kraftuttagsaxel för en tillämpning:
1. Strömförsörjning: Den drivna maskinens effektbehov spelar en viktig roll för att bestämma lämplig kraftuttagsaxel. Ta hänsyn till kraftkällans effekt (hk) eller kilowatt (kW) och se till att kraftuttagsaxeln kan hantera den erforderliga kraftöverföringen. Det är viktigt att matcha kraftuttagsaxelns effektkapacitet med kraftkällans uteffekt för att säkerställa effektiv och tillförlitlig drift.
2. Krav på hastighet och vridmoment: Beakta kraven på hastighet och vridmoment för den drivna maskinen. Bestäm önskad rotationshastighet och vridmomentnivåer som krävs för att utrustningen ska fungera effektivt. Vissa tillämpningar kräver specifika hastighets- eller vridmomentförhållanden, medan andra kan kräva varierande hastigheter. Säkerställ att den valda kraftuttagsaxeln kan hantera det erforderliga hastighets- och vridmomentområdet för att ge den nödvändiga kraftöverföringen.
3. Axeltyp och design: Utvärdera typ och design av kraftuttagsaxeln för att säkerställa kompatibilitet med tillämpningen. Tänk på faktorer som avståndet mellan kraftkällan och den drivna maskinen, behovet av vinkelfeljustering och den rörelseflexibilitet som krävs. Olika axeltyper, såsom standardaxlar, teleskopaxlar eller CV-axlar, erbjuder varierande kapacitet för att tillgodose olika tillämpningskrav.
4. Säkerhetsaspekter: Säkerhet är en avgörande faktor när man väljer en kraftuttagsaxel. Bedöm de säkerhetsfunktioner som kraftuttagsaxeln tillhandahåller, såsom skyddsanordningar, brytbultsmekanismer eller andra säkerhetsanordningar. Skyddsanordningar bör finnas på plats för att förhindra oavsiktlig kontakt med den roterande axeln. Brybultsmekanismer kan skydda drivlinekomponenterna från skador vid för stort vridmoment eller plötsligt motstånd. Prioritera säkerhetsfunktioner som överensstämmer med de specifika faror och risker som är förknippade med tillämpningen.
5. Applikationsspecifikationer: Tänk på tillämpningens unika krav. Faktorer som maskintyp, industrisektor, miljöförhållanden och driftsförhållanden bör beaktas. Till exempel kan jordbruksapplikationer kräva kraftuttagsaxlar som kan hantera ansamling av skräp och smuts, medan industriella tillämpningar kan kräva kraftuttagsaxlar med hög korrosionsbeständighet eller speciell tätning för att skydda mot föroreningar.
6. Kompatibilitet och utbytbarhet: Säkerställ att den valda kraftuttagsaxeln är kompatibel med kraftkällan och den drivna maskinen. Tänk på faktorer som axeldiameter, splinestorlek och anslutningstyp. Kontrollera om kraftuttagsaxeln uppfyller branschstandarder och om den enkelt kan bytas ut mot andra kompatibla komponenter vid behov av utbyte eller uppgradering. Kompatibilitet och utbytbarhet kan förenkla underhåll och minska driftstopp.
7. Tillverkare och kvalitet: Välj en välrenommerad tillverkare eller leverantör för att säkerställa kraftuttagsaxelns kvalitet och tillförlitlighet. Leta efter tillverkare med dokumenterad erfarenhet av att producera kraftuttagsaxlar av hög kvalitet som uppfyller branschstandarder och föreskrifter. Tänk på faktorer som garanti, kundsupport och tillgång till reservdelar när du gör ett val.
Genom att beakta dessa faktorer kan du välja rätt kraftuttagsaxel som uppfyller kraven för effekt, hastighet, vridmoment, säkerhet och tillämpning. Det är lämpligt att rådgöra med experter, såsom utrustningstillverkare eller kraftuttagsaxlar, för att säkerställa optimal anpassning mellan kraftuttagsaxeln och tillämpningen.
How do PTO shafts enhance the performance of tractors and agricultural machinery?
Power Take-Off (PTO) shafts play a crucial role in enhancing the performance of tractors and agricultural machinery. By providing a reliable power transfer mechanism, PTO shafts enable these machines to operate efficiently, effectively, and with increased versatility. Here’s a detailed explanation of how PTO shafts enhance the performance of tractors and agricultural machinery:
1. Power Transfer: PTO shafts facilitate the transfer of power from the tractor’s engine to various agricultural implements and machinery. The rotating power generated by the engine is transmitted through the PTO shaft to drive the connected equipment. This direct power transfer eliminates the need for separate engines or motors on each implement, reducing complexity, weight, and maintenance requirements. PTO shafts ensure a consistent and reliable power supply, enabling agricultural machinery to perform tasks with optimal efficiency and effectiveness.
2. Versatility: PTO shafts provide tractors and agricultural machinery with increased versatility. Since PTO shafts have standardized dimensions and connection methods, a wide range of implements can be easily attached and powered by the same tractor. This versatility allows farmers to quickly switch between different tasks, such as mowing, tilling, planting, and harvesting, without the need for multiple specialized machines. The ability to use a single power unit for various operations reduces costs, saves storage space, and improves overall operational efficiency.
3. Improved Productivity: PTO shafts contribute to improved productivity in agricultural operations. By harnessing the power of tractors, agricultural machinery can operate at higher speeds and with greater efficiency compared to manual or alternative power methods. PTO-driven implements, such as mowers, balers, and harvesters, can cover larger areas and complete tasks more quickly, reducing the time required to perform agricultural operations. This increased productivity allows farmers to accomplish more within a given timeframe, leading to higher crop yields and improved overall farm efficiency.
4. Reduced Labor Requirements: PTO shafts help reduce labor requirements in agricultural operations. By utilizing mechanized equipment powered by PTO shafts, farmers can minimize manual labor and the associated physical effort. Tasks such as plowing, tilling, and harvesting can be performed more efficiently and with less reliance on human labor. This reduction in labor requirements allows farmers to allocate resources more effectively, focus on other essential tasks, and potentially reduce labor costs.
5. Precision and Accuracy: PTO shafts contribute to precision and accuracy in agricultural operations. The consistent power supply from the tractor’s engine ensures uniform operation and performance of the connected machinery. This precision is crucial for tasks such as seed placement, fertilizer or chemical application, and crop harvesting. PTO-driven equipment can provide consistent rotations per minute (RPM) and maintain the necessary operational parameters, resulting in precise and accurate agricultural practices. This precision leads to improved crop quality, reduced waste, and optimized resource utilization.
6. Adaptability to Various Tasks: PTO shafts enhance the adaptability of tractors and agricultural machinery to perform various tasks. With the ability to connect different implements, such as mowers, seeders, sprayers, or balers, via PTO shafts, farmers can quickly transform their tractors into specialized machines for specific operations. This adaptability allows for efficient utilization of equipment across different stages of crop production, enabling farmers to respond to changing needs and conditions in a cost-effective manner.
7. Enhanced Safety: PTO shafts contribute to enhanced safety in agricultural operations. Many PTO shafts are equipped with safety features, such as shields or guards, to protect operators from potential hazards associated with rotating components. These safety measures help prevent entanglement accidents and reduce the risk of injuries. Additionally, by using PTO-driven machinery, farmers can keep a safe distance from certain hazardous tasks, such as mowing or shredding, further improving overall safety on the farm.
8. Integration with Technology: PTO shafts can be integrated with advanced technology and automation systems in modern tractors and agricultural machinery. This integration allows for precise control, data monitoring, and optimization of machine performance. For example, precision guidance systems can be synchronized with PTO-driven implements to ensure accurate seed placement or chemical application. Furthermore, data collection and analysis can provide insights into fuel efficiency, maintenance needs, and overall equipment performance, leading to optimized operation and improved productivity.
In summary, PTO shafts enhance the performance of tractors and agricultural machinery by enabling efficient power transfer, increasing versatility, improving productivity, reducing labor requirements, ensuring precision and accuracy, facilitating adaptability, enhancing safety, and integrating with advanced technologies. These benefits contribute to overall operational efficiency, cost-effectiveness, and the ability of farmers to effectively manage theiragricultural operations.
Which industries commonly use PTO shafts for power transmission?
PTO shafts (Power Take-Off shafts) are widely used in various industries where power transmission is required to drive machinery and equipment. Their versatility, efficiency, and compatibility with different types of machinery make them valuable components in several sectors. Here’s a detailed explanation of the industries that commonly use PTO shafts for power transmission:
1. Agriculture: The agricultural industry extensively relies on PTO shafts for power transmission. Tractors equipped with PTOs are commonly used to drive a wide range of agricultural implements and machinery. PTO-driven equipment includes mowers, balers, tillers, seeders, sprayers, grain augers, harvesters, and many more. PTO shafts allow for the efficient transfer of power from the tractor’s engine to these implements, enabling various agricultural operations such as cutting, baling, tilling, planting, spraying, and harvesting. The agricultural sector heavily depends on PTO shafts to enhance productivity and streamline farming processes.
2. Construction and Earthmoving: In the construction and earthmoving industry, PTO shafts find applications in machinery used for excavation, grading, and material handling. PTO-driven equipment such as backhoes, loaders, excavators, trenchers, and stump grinders utilize PTO shafts to transfer power from the prime movers, typically hydraulic systems, to drive the necessary attachments. These attachments require the high torque and power provided by PTO shafts to perform tasks like digging, loading, trenching, and grinding. PTO shafts allow for versatile and efficient power transmission in construction and earthmoving operations.
3. Forestry: The forestry industry utilizes PTO shafts for power transmission in various logging and timber processing equipment. PTO-driven machinery such as wood chippers, sawmills, log splitters, and debarkers rely on PTO shafts to transfer power from tractors or dedicated power units to perform tasks like chipping, sawing, splitting, and debarking wood. PTO shafts provide the necessary power and torque to drive the cutting and processing mechanisms, enabling efficient and productive forestry operations.
4. Landscaping and Groundskeeping: PTO shafts play a crucial role in the landscaping and groundskeeping industry. Equipment like lawn mowers, rotary cutters, flail mowers, and aerators utilize PTO shafts to transfer power from tractors or dedicated power units to drive the cutting or grooming mechanisms. PTO shafts enable efficient power transmission, allowing operators to maintain lawns, parks, golf courses, and other outdoor spaces with precision and productivity.
5. Mining and Quarrying: PTO shafts have applications in the mining and quarrying industry, particularly in equipment used for material extraction, crushing, and screening. PTO-driven machinery such as crushers, screeners, and conveyors rely on PTO shafts to transfer power from engines or motors to drive the crushing and screening mechanisms, as well as the material handling systems. PTO shafts provide the necessary power and torque to process and transport bulk materials effectively in mining and quarrying operations.
6. Industrial Manufacturing: PTO shafts are utilized in various industrial manufacturing processes that require power transmission to drive specific machinery and equipment. Industries such as food processing, textile manufacturing, paper production, and chemical processing may use PTO-driven machinery for tasks like mixing, blending, cutting, extruding, and conveying. PTO shafts enable efficient power transfer to these machines, ensuring smooth and reliable operation in industrial manufacturing settings.
7. Utilities and Infrastructure Maintenance: PTO shafts find applications in utilities and infrastructure maintenance operations. Equipment like street sweepers, sewer cleaners, road maintenance machines, and drain augers utilize PTO shafts to transfer power from trucks or dedicated power units to perform tasks like sweeping, cleaning, and maintenance of roads, sewers, and other public infrastructure. PTO shafts enable efficient power transmission, ensuring effective and reliable operation of these utility and maintenance machines.
8. Others: PTO shafts are also used in several other industries and sectors where power transmission is required. This includes applications in the transportation industry for powering refrigeration units, fuel pumps, and hydraulic systems in trucks and trailers. PTO shafts also find applications in the marine industry for powering winches, pumps, and other equipment on boats and ships.
In summary, PTO shafts are commonly used in a wide range of industries for power transmission. These industries include agriculture, construction and earthmoving, forestry, landscaping and groundskeeping, mining and quarrying, industrial manufacturing, utilities and infrastructure maintenance, transportation, and marine sectors. PTO shafts play a critical rolein enhancing productivity, enabling efficient operation of machinery, and facilitating various tasks in these industries.
editor by CX 2024-04-09
