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China OEM Vessel Marine Accommodation Ladder Winch Marine Single Drum Diesel Engine Driven Winch

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Vessel Marine Accommodation Ladder Winch Marine Single Drum Diesel Engine Driven Winch

Marine hydraulic winch is usually with heavy rated load and widely applied on ship, on the dock or on the offshore platforms for lifting, pulling, towing, mooring etc. It is welcomed by customers especially for heavy-duty marine work and operations. There are built-in hydraulic winch, exposed hydraulic winch, high speed hydraulic winch and low speed hydraulic winch.

Model Rated load Rated speed Rope capacity Rope diameter Motor power Overall Dimensions
KN m/min m mm KW mm
YT1-16 160 7.5 500 28 45 3200x4050x2200
YT1-20 200 7.5 500 30 55 3200x4050x2200
YT1-25 250 7.5 550 32 75 3600x4350x2580
YT1-32 320 7.5 600 36 90 3600x4500x2600
YT1-40 400 5 750 40 90 3700x4800x2860
YT1-50 500 5 750 52 110 3900x4900x3000
YT1-63 630 5 850 54 110 4000x5100x3100
YT1-80 800 5 1000 58 132 4250x5300x3300
YT1-100 1000 5 1000 64 180 4550x5500x3450
YT1-125 1250 5 1200 70 220 4850x5800x3700
YT1-130 1300 5 1200 72 220 5000x6800x3800
YT1-160 1600 4 1500 82 220 5200x7000x3860
YT1-200 2000 4 1500 90 250 5350x7200x4000
YT1-250 2500 4 1500 102 300 5500x7450x4200
YT1-300 3000 4 1500 110 360 5800x7600x4200

1)Compact costruction, safe & easy operation. 
2) Hydraulic Anchor Winch with double drums in waterfall Specifications Details Hydraulic Mooring Winch with double drums in waterfall It consists of a hydraulic motor,spur gears with cover, 3 main shafts , 2 drums, ratchet wheel and detent, etc. Feature Double drums in waterfall. Two drums can work simultaneously and independently. Each Drum’s load 90T (1st layer) Nominal speed 90T X 5m/min(High speed, Winch control Local control & Remote control including amplifier and joystick Brake Hydraulic operated band brake (normally shut) Clutch Hydraulic claw clutch Power Two units 90T double drums winch share 1 hydraulic power unit placed in a room with doors. Two winches drums can work simultaneously and independently.

The main components of the winch include: hydraulic motor (low speed or high speed motor), hydraulic NC multi-plate brake, gearbox, clutch (optional), drum ( single drum or double drum), support shaft, frame spooling device (optional) etc. The winch motor has high mechanical efficiency. The brakes and gearbox are installed in the winch drum, and the drum, support shaft and frame are designed in accordance with mechanical requirements, which makes the overall structure simple and reasonable with sufficient strength and rigidity.

Features Of Marine Hydraulic Winch
In structure: the winch structure is compact, and it has nice appearance with small volume and light weight, etc.;
In function: the hydraulic winches have high safety and efficiency, large starting torque, good stability with low speed, low noise, reliable operation etc;
In application: the marine hydraulic winches can be used on ship deck, in port, on offshore platforms and so on. They can be used for anchoring, mooring, towing and other marine operations, to meet different work requirements, there are marine hydraulic towing winch, hydraulic anchor winch and hydraulic mooring winch supplied by us.

 

After-sales Service: Give The Solution Within 6 Hours
Warranty: 1 Year
Tipo: Hydraulic Windlass
Driven Type: Hydraulic
Speed: Slow
Carrying Capacity: Special Weight Level
Personalização:
Disponível

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Solicitação personalizada

How do I Prevent Wear and Damage to Ladder Sprockets during Conveyor Operation?

Preventing wear and damage to ladder sprockets during conveyor operation is essential to ensure their longevity and maintain the overall efficiency of the conveyor system. Here are some preventive measures to follow:

  • Proper Lubrication: Apply the appropriate lubricant to the ladder sprockets and the conveyor chain regularly. Lubrication reduces friction between the sprocket teeth and the chain links, minimizing wear and prolonging the sprocket’s life.
  • Chain Tension: Maintain the correct tension in the conveyor chain. Proper tensioning prevents excessive stress on the ladder sprockets and chain links, reducing wear and preventing premature failure.
  • Chain Alignment: Ensure the conveyor chain is correctly aligned with the ladder sprocket. Misalignment can cause uneven wear on the sprocket teeth and chain links, leading to accelerated wear and potential damage.
  • Cleanliness: Keep the ladder sprockets and the surrounding area clean from debris, dirt, and contaminants. Foreign particles can cause chain jamming, accelerated wear, and affect sprocket performance.
  • Regular Inspection: Conduct regular visual inspections of the ladder sprockets to check for signs of wear, damage, or deformation. Early detection of issues allows for timely maintenance and prevents further damage.
  • Replace Worn Sprockets: Monitor the condition of the ladder sprocket teeth regularly. If the sprocket teeth show significant wear, chipping, or deformation, replace the sprocket promptly to prevent further damage to the conveyor chain.
  • Inspect Chain Wear: Regularly inspect the conveyor chain for signs of wear, stretching, or elongation. A worn chain can accelerate sprocket wear, so replace the chain if it is beyond its recommended service life.
  • Load Capacity: Ensure that the ladder sprockets are appropriately sized and rated for the load capacity of the conveyor system. Using sprockets that are too small or not designed for heavy-duty applications can lead to premature wear and failure.
  • Follow Manufacturer’s Guidelines: Adhere to the ladder sprocket manufacturer’s maintenance recommendations and service intervals. Manufacturers may provide specific guidelines for lubrication, tensioning, and inspection to optimize sprocket performance and longevity.

By following these preventive measures, you can minimize wear and damage to ladder sprockets, prolong their service life, and maintain a reliable and efficient conveyor system. Regular maintenance and inspections are essential to identify and address any potential issues early on, preventing costly downtime and ensuring the smooth operation of your conveyor system.

Quais são as capacidades de carga das diferentes configurações de rodas dentadas para escadas?

A capacidade de carga das rodas dentadas para escadas varia dependendo do seu projeto, material e tamanho. É essencial considerar diversos fatores ao determinar a capacidade de carga de uma configuração de roda dentada para escada:

  • Material: O material utilizado na construção da roda dentada da escada influencia significativamente sua capacidade de carga. Rodas dentadas de aço são conhecidas por sua alta resistência e capacidade de suportar cargas, enquanto plásticos de engenharia de alta resistência são adequados para cargas mais leves e aplicações específicas no processamento de alimentos.
  • Tamanho e número de dentes: De modo geral, rodas dentadas com mais dentes proporcionam uma área de contato maior com a corrente, distribuindo a carga de maneira mais uniforme e aumentando a capacidade de carga. Rodas dentadas maiores, com diâmetros maiores, também podem suportar cargas mais elevadas devido à sua maior área de superfície.
  • Configuração do Hub: A configuração do cubo da roda dentada da escada pode afetar sua capacidade de carga. Rodas dentadas com cubos robustos e resistentes podem suportar cargas maiores em comparação com rodas dentadas com cubos padrão ou leves.
  • Personalização: Algumas rodas dentadas para escadas podem ser personalizadas para aumentar sua capacidade de carga em aplicações específicas. Modificações de projeto personalizadas, estruturas de suporte adicionais ou materiais de maior resistência podem ser empregados para atender a requisitos de serviço pesado.
  • Aplicação e ambiente: The application and operating environment play a crucial role in determining the load-carrying capacity. Factors such as the conveyed material’s weight, conveyor speed, incline angle, and temperature conditions can impact the load on the sprocket.
  • Normas da indústria: Certain industries have specific standards and guidelines for ladder sprocket load capacity. Adhering to these standards ensures safe and reliable conveyor operation within the industry’s recommended load limits.

It is essential to consult with sprocket manufacturers and conveyor system experts to determine the appropriate ladder sprocket configuration for your specific load requirements. They can provide valuable insights, perform load calculations, and recommend the most suitable ladder sprocket design based on your application’s unique needs.

A manutenção e inspeção regulares das rodas dentadas da esteira são essenciais para identificar sinais de desgaste ou danos que possam afetar a capacidade de carga. Ao selecionar a configuração correta de rodas dentadas da esteira e garantir a manutenção adequada, você pode otimizar a capacidade de carga e a confiabilidade do seu sistema de transporte.

Can you Explain the Working Principle of a Ladder Sprocket in a Conveyor System?

In a conveyor system, a ladder sprocket operates based on the principle of guiding and supporting the conveyor chain to ensure smooth and reliable motion. Here’s a detailed explanation of the working principle:

  • Design and Structure: A ladder sprocket consists of two parallel plates or bars connected by cross members. The cross members have gaps between them, allowing the chain links to rest securely within the gaps.
  • Chain Engagement: The conveyor chain moves along the conveyor path and wraps around the ladder sprocket. As the chain travels, the chain links fit into the gaps between the cross members, resulting in continuous support and engagement of the chain with the sprocket.
  • Guiding the Chain: The ladder sprocket guides the conveyor chain, preventing it from derailing or skipping during operation. The chain links are confined within the cross members, which helps maintain the chain’s correct alignment with the sprocket teeth.
  • Preventing Chain Slippage: The ladder sprocket’s design ensures that each chain link is securely held within the cross members. This prevents chain slippage and ensures accurate and consistent power transmission between the sprocket and the conveyor chain.
  • Smooth Motion: The ladder sprocket’s continuous support of the chain links provides smooth motion without significant chain whip or slack. This is crucial for conveyor systems that require precise and consistent movement of materials.
  • Low Noise and Vibration: Due to the chain’s secure engagement and reduced slippage, a ladder sprocket contributes to low noise and vibration levels in the conveyor system, making it suitable for applications where noise reduction is important.
  • High-Speed Applications: Ladder sprockets are commonly used in high-speed conveyor systems, ensuring stable and accurate motion of the chain even at elevated speeds.

Overall, the working principle of a ladder sprocket in a conveyor system revolves around guiding, supporting, and engaging the conveyor chain to facilitate smooth and reliable material handling. The ladder sprocket’s unique design provides advantages in certain applications where precise motion control, low noise, and high-speed operation are essential.

When incorporating ladder sprockets into conveyor systems, it is crucial to ensure the proper selection and alignment of the sprocket with the chain to achieve optimal performance and longevity of both the sprocket and the conveyor system.


editor by CX 2023-10-25

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