Deskripsi Produk
SWC-I Series-Light-Duty Designs Cardan shaft
Designs
Data and Size of SWC-I Series Universal Joint Couplings
| Jenis | Desian Data Item |
SWC-I 58 |
SWC-I 65 |
SWC-I 75 |
SWC-I 90 |
SWC-I 100 |
SWC-I 120 |
SWC-I 150 |
SWC-I 180 |
SWC-I 200 |
SWC-I 225 |
| A | L | 255 | 285 | 335 | 385 | 445 | 500 | 590 | 640 | 775 | 860 |
| Lv | 35 | 40 | 40 | 45 | 55 | 80 | 80 | 80 | 100 | 120 | |
| m(kg) | 2.2 | 3.0 | 5.0 | 6.6 | 9.5 | 17 | 32 | 40 | 76 | 128 | |
| B | L | 150 | 175 | 200 | 240 | 260 | 295 | 370 | 430 | 530 | 600 |
| m(kg) | 1.7 | 2.4 | 3.8 | 5.7 | 7.7 | 13.1 | 23 | 28 | 55 | 98 | |
| C | L | 128 | 156 | 180 | 208 | 220 | 252 | 340 | 348 | 440 | 480 |
| m(kg) | 1.3 | 1.95 | 3.1 | 5.0 | 7.0 | 12.3 | 22 | 30 | 56 | 96 | |
| Tn(N·m) | 150 | 200 | 400 | 750 | 1250 | 2500 | 4500 | 8400 | 16000 | 22000 | |
| Tf(N·m) | 75 | 100 | 200 | 375 | 630 | 1250 | 2250 | 4200 | 8000 | 11000 | |
| β(°) | 35 | 35 | 35 | 35 | 35 | 35 | 35 | 25 | 25 | 25 | |
| D | 52 | 63 | 72 | 92 | 100 | 112 | 142 | 154 | 187 | 204 | |
| Df | 58 | 65 | 75 | 90 | 100 | 120 | 150 | 180 | 200 | 225 | |
| D1 | 47 | 52 | 62 | 74.5 | 84 | 101.5 | 130 | 155.5 | 170 | 196 | |
| D2(H9) | 30 | 35 | 42 | 47 | 57 | 75 | 90 | 110 | 125 | 140 | |
| D3 | 38 | 38 | 4 | 50 | 60 | 70 | 89 | 102 | 114 | 140 | |
| Lm | 32 | 39 | 45 | 52 | 55 | 63 | 85 | 87 | 110 | 120 | |
| k | 3.5 | 4.5 | 5.5 | 6.0 | 8.0 | 8.0 | 10.0 | 12.0 | 14.0 | 15.0 | |
| t | 1.5 | 1.7 | 2.0 | 2.5 | 2.5 | 2.5 | 3.0 | 4.0 | 4.0 | 5.0 | |
| N | 4 | 4 | 6 | 4 | 6 | 8 | 8 | 8 | 8 | 8 | |
| d | 5.1 | 6.5 | 6.5 | 8.5 | 8.5 | 10.5 | 13 | 15 | 17 | 17 | |
| MI(kg) | 0.14 | 0.16 | 0.38 | 0.38 | 0.53 | 0.53 | 0.87 | 0.87 | 1.65 | 2.14 | |
| Flange bolt | size | M5 | M6 | M6 | M8 | M8 | M10 | M12 | M14 | M16 | M16 |
| Tightening torque(N·m) | 7 | 13 | 13 | 32 | 32 | 64 | 110 | 180 | 270 | 270 |
1. Notations:
L=Standard length, or compressed length for designs with length compensation;
LV=Length compensation;
M=Weight;
Tn=Nominal torque(Yield torque 50% over Tn);
TF=Fatigue torque, I. E. Permissible torque as determined according to the fatigue strength
Under reversing loads;
β=Maximum deflection angle;
MI=weight per 100mm tube
2. Millimeters are used as measurement units except where noted;
3. Please consult us for customizations regarding length, length compensation and
Flange connections.
Pengantar Singkat
Alur pemrosesan
Aplikasi
Kontrol Kualitas
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| Kondisi: | Baru |
|---|---|
| Color: | Red |
| Sertifikasi: | ISO |
| Struktur: | Double |
| Bahan: | Baja Paduan |
| Jenis: | Retractable |
| Kustomisasi: |
Tersedia
| Permintaan Khusus |
|---|
Apakah poros PTO dapat diadaptasi untuk digunakan baik di lingkungan pertanian maupun industri?
Ya, poros PTO (Power Take-Off) dapat diadaptasi untuk digunakan baik di lingkungan pertanian maupun industri. Meskipun poros PTO umumnya dikaitkan dengan mesin pertanian, komponen ini serbaguna dan dapat digunakan dalam berbagai aplikasi di luar sektor pertanian. Dengan modifikasi dan pertimbangan yang tepat, poros PTO juga dapat secara efektif mentransfer daya di lingkungan industri. Berikut penjelasan rinci tentang bagaimana poros PTO dapat diadaptasi untuk penggunaan pertanian dan industri:
1. Desain Poros PTO Standar: Poros PTO memiliki desain standar yang memungkinkan kompatibilitas dan pertukaran di berbagai peralatan dan mesin. Standardisasi ini memungkinkan poros PTO digunakan dalam berbagai aplikasi, termasuk di lingkungan pertanian dan industri. Komponen dasar poros PTO, seperti sambungan universal, poros beralur, dan pelindung, tetap konsisten, terlepas dari aplikasi spesifiknya. Konsistensi ini memungkinkan adaptasi dan integrasi yang mudah ke dalam berbagai mesin dan peralatan.
2. Panjang dan Ukuran Poros: Poros PTO dapat disesuaikan panjang dan ukurannya untuk memenuhi kebutuhan spesifik baik di lingkungan pertanian maupun industri. Panjang poros dapat disesuaikan untuk mengakomodasi jarak yang berbeda antara sumber daya dan mesin yang digerakkan. Fleksibilitas ini memungkinkan transmisi daya yang optimal dan memastikan kompatibilitas dengan berbagai konfigurasi peralatan. Demikian pula, ukuran poros PTO, termasuk diameter dan spesifikasi poros beralur, dapat disesuaikan untuk memenuhi kebutuhan torsi dan daya dari berbagai aplikasi, baik di bidang pertanian maupun industri.
3. Kebutuhan Daya: Poros PTO dirancang untuk mentransfer daya dari sumber daya ke mesin yang digerakkan. Dalam lingkungan pertanian, sumber daya biasanya berupa traktor atau kendaraan pertanian lainnya, sedangkan dalam lingkungan industri, dapat berupa mesin, motor, atau unit daya khusus untuk industri tersebut. Poros PTO dapat disesuaikan untuk menangani berbagai kebutuhan daya dengan mempertimbangkan faktor-faktor seperti kapasitas torsi, kecepatan putaran, dan tuntutan spesifik dari mesin atau peralatan yang digerakkan. Dengan memilih poros PTO yang tepat berdasarkan kebutuhan daya, poros tersebut dapat secara efektif mentransfer daya baik dalam aplikasi pertanian maupun industri.
4. Pertimbangan Keselamatan: Keselamatan merupakan aspek penting dalam desain dan penggunaan poros PTO, terlepas dari aplikasinya. Poros PTO dilengkapi dengan fitur keselamatan seperti pelindung dan perisai untuk mencegah kontak yang tidak disengaja dengan komponen yang berputar. Langkah-langkah keselamatan ini sangat penting dalam lingkungan pertanian dan industri untuk meminimalkan risiko terjerat, cedera, atau kerusakan. Mengadaptasi poros PTO untuk penggunaan industri mungkin memerlukan pertimbangan keselamatan tambahan berdasarkan bahaya spesifik yang ada di lingkungan industri. Namun, prinsip dan fitur keselamatan inti dari poros PTO dapat diterapkan dan diadaptasi untuk memastikan pengoperasian yang aman di kedua lingkungan tersebut.
5. Lampiran Khusus: Poros PTO dapat dilengkapi dengan perlengkapan atau adaptor khusus untuk mengakomodasi berbagai mesin atau peralatan yang digerakkan. Dalam lingkungan pertanian, poros PTO umumnya terhubung ke alat-alat seperti mesin pemotong rumput, mesin pengepak jerami, atau alat penyemprot. Dalam lingkungan industri, poros PTO dapat diadaptasi untuk terhubung ke berbagai mesin industri, termasuk pompa, generator, kompresor, atau konveyor. Perlengkapan khusus ini memastikan kompatibilitas dan transfer daya yang efisien antara poros PTO dan peralatan yang digerakkan, memungkinkan integrasi yang mulus baik dalam aplikasi pertanian maupun industri.
6. Pertimbangan Lingkungan: Poros PTO dapat diadaptasi untuk mengatasi kondisi lingkungan spesifik baik di lingkungan pertanian maupun industri. Misalnya, dalam aplikasi pertanian, poros PTO mungkin perlu tahan terhadap paparan kotoran, debu, kelembapan, dan berbagai kondisi cuaca. Lingkungan industri mungkin memiliki tantangan lingkungan yang unik, seperti paparan bahan kimia, suhu tinggi, atau material abrasif. Dengan memilih material poros PTO, lapisan pelindung, dan segel yang sesuai untuk lingkungan spesifik, poros dapat diadaptasi untuk memastikan kinerja yang andal dan tahan lama di berbagai lingkungan.
7. Kepatuhan terhadap Standar: Poros PTO, baik yang digunakan di lingkungan pertanian maupun industri, harus mematuhi standar dan peraturan keselamatan yang relevan. Produsen mematuhi pedoman dan persyaratan yang ditetapkan oleh organisasi seperti American Society of Agricultural and Biological Engineers (ASABE) atau otoritas keselamatan regional lainnya. Kepatuhan memastikan bahwa poros PTO memenuhi kriteria keselamatan dan standar kinerja yang berlaku untuk lingkungan pertanian dan industri. Pengguna dapat mengandalkan poros PTO standar yang telah menjalani pengujian dan sertifikasi, yang memberikan jaminan mengenai keandalan dan keamanannya.
Dengan mempertimbangkan faktor-faktor yang disebutkan di atas, poros PTO dapat diadaptasi untuk mentransfer daya secara efektif baik di lingkungan pertanian maupun industri. Sifat poros PTO yang serbaguna, ditambah dengan pilihan kustomisasi, pertimbangan keselamatan, perlengkapan khusus, dan kepatuhan terhadap standar, memungkinkan integrasi yang sukses ke dalam berbagai macam mesin dan peralatan di berbagai industri.
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. Pengalihan Kekuasaan: 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. Peningkatan Produktivitas: 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.
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 2024-02-11
