Tag Archives: steering hydraulic

China high quality Plastic Aluminums Stainless Steel Zinc Hydraulic Control Marine Steering Wheel for Ship Yacht

Product Description

Plastic Hot Sale Aluminums/Stainless Steel/Zinc Hydraulic control Steering Wheel for Ship/ Yacht

Product Application

The steering wheels is suit for marine hydraulic inboard/outboard steering system.

There are many types you can choose, plastic, stainless steel, aluminum alloy, zinc alloy etc.
 

 

 

 

 

        

 

 

 

 

Related Products

Hydraulic steering system, including steering wheel, pump, cylinder, tube, accessories. Steering wheel is CX7001 if not required (For exporting will be without oil.) 

The use of the brands are: YAMAHA, SUZUKI, HONDA, TOHATSU, MERCURY / MARINER, NISSAN.
 

 

Our Service

1. Ensure good quality, good package for transporation and deliver on time during the production phase;

2. Manging sea freight to customer’s port of destination;

3. Be responsible for the after-sales service.

Company information

Recommend Products

Packing & Delivery

FAQ

Q When can I get the price?
A:We will reply you within 24 hours after we get your inguiry. Or you can directly call us if you are very urgent.

Q How to do the problems of product in the using process?
A: We have a professional technical team, will be online to solve the use of the process encountered various problems.

Q Why we choose you?
15 years specialising in marine deck equipment.
18 long-term cooperation supporting factories.
24 hours a day after-sale technical support.

 

 

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After-sales Service: Yes
Warranty: 1 Year
Material: Plastic
Model: Cx7001
Application: Machines
Color: Black, Write and Gold, Metal Colour
Customization:
Available

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plastic wheel

Can plastic wheels be customized for specific uses or environments?

Yes, plastic wheels can be customized for specific uses or environments to meet unique requirements and applications. Customization options for plastic wheels include:

  • 1. Material Selection: Plastic wheels can be manufactured from various types of plastics, each with specific properties. Depending on the application, you can choose the most suitable plastic material to optimize factors like durability, chemical resistance, temperature tolerance, and load-bearing capacity.
  • 2. Load Capacity: Custom plastic wheels can be designed with specific load-bearing capabilities in mind. Reinforcements and modifications to the wheel’s structure can be made to increase its load capacity, ensuring it can handle the intended weight.
  • 3. Wheel Diameter: The size and diameter of the wheel can be customized to match the terrain and space constraints of the application. Whether you need smaller or larger wheels, customization is possible to ensure a perfect fit.
  • 4. Tread Design: The tread pattern on plastic wheels can be tailored to provide optimal traction, stability, and noise reduction for specific environments. Different tread designs are available to suit various surfaces and conditions.
  • 5. Bearings: Custom plastic wheels can be equipped with different types of bearings to meet performance requirements. Precision bearings, sealed bearings, or special bearing configurations can be chosen based on the application’s demands.
  • 6. Environment-Specific Features: Plastic wheels can be customized with features like corrosion-resistant coatings, anti-static properties, UV resistance, and non-marking materials to accommodate specific environmental conditions.
  • 7. Color and Aesthetics: Custom plastic wheels can be produced in various colors and finishes to match the aesthetics of the equipment or environment they are used in. This is common in applications like office furniture and consumer products.
  • 8. Mounting Options: Custom wheels can be designed with specific mounting and attachment options to ensure a secure fit with the equipment or vehicle. Custom hubs or axle configurations can be provided.
  • 9. Specialized Applications: For highly specialized applications, such as aerospace, healthcare, or automotive, plastic wheels can be customized to meet stringent industry standards and certifications.
  • 10. Prototyping and Testing: Customization often involves prototyping and testing to ensure that the wheels meet the desired performance criteria. Manufacturers can work closely with customers to develop and refine custom wheel designs.

Customized plastic wheels are valuable for industries and applications with specific needs, ensuring that the wheels perform optimally and contribute to the overall functionality and efficiency of equipment or systems.

plastic wheel

Are there innovations or advancements in plastic wheel technology that have emerged recently?

Yes, there have been several recent innovations and advancements in plastic wheel technology, driven by the need for improved performance, sustainability, and versatility in various applications. Some notable innovations include:

  • 1. Sustainable Materials: Manufacturers are increasingly focusing on using recycled and sustainable plastics to make wheels. These eco-friendly materials reduce environmental impact and align with sustainability goals.
  • 2. Reinforced Composites: Advancements in composite materials have led to the development of reinforced plastic wheels with enhanced strength and load-bearing capacity. These wheels can compete with metal alternatives in heavy-duty applications.
  • 3. Noise Reduction Design: Innovative tread patterns and materials are designed to further reduce noise and vibration in plastic wheels. This is crucial for applications where noise reduction is a priority, such as in office furniture and healthcare equipment.
  • 4. Hybrid Wheels: Some recent designs incorporate a combination of plastic and rubber or other materials to optimize performance. These hybrid wheels offer benefits like improved traction, shock absorption, and load capacity.
  • 5. Smart Wheels: Emerging technologies are enabling the development of smart wheels equipped with sensors and data-tracking capabilities. These wheels can provide real-time information about load weight, temperature, and wear, enhancing equipment monitoring and maintenance.
  • 6. Antimicrobial Properties: In response to increased awareness of hygiene and sanitation, some plastic wheels are now designed with antimicrobial properties to inhibit the growth of bacteria and germs. This is especially relevant in medical and food service equipment.
  • 7. 3D Printing: 3D printing technology allows for the rapid prototyping and customization of plastic wheels. Manufacturers can quickly create intricate designs and tailor wheels to specific customer needs.
  • 8. Improved Bearing Systems: Advances in bearing technology have led to the development of high-performance, low-friction bearings for plastic wheels, resulting in smoother and more efficient operation.
  • 9. Increased Load Capacity: Through innovative engineering and materials, plastic wheels are now capable of handling heavier loads than ever before, expanding their applications in industries like logistics and manufacturing.
  • 10. Enhanced Durability: Recent developments have focused on improving the durability of plastic wheels, increasing their resistance to wear, impact, and environmental factors.

These innovations are driving the adoption of plastic wheels in a broader range of applications and industries, making them a competitive choice alongside traditional wheel materials like metal or rubber.

plastic wheel

How does the design of a plastic wheel contribute to its durability and performance?

The design of a plastic wheel plays a significant role in determining its durability and performance. Several key design factors contribute to these attributes:

  • 1. Material Selection: The choice of plastic material is crucial. High-quality plastics, such as polyurethane, polypropylene, and nylon, are commonly used for wheel construction. These materials offer excellent durability, impact resistance, and resistance to wear and tear.
  • 2. Load Capacity: The design of the wheel must consider the expected load capacity. Reinforcements, such as ribbing or internal structures, can be added to strengthen the wheel and enhance its load-bearing capabilities. Proper load capacity design ensures that the wheel can support the intended weight without deformation or failure.
  • 3. Bearing Type: The design of the wheel includes the type of bearing used. Precision bearings, such as ball bearings or roller bearings, reduce friction and ensure smooth rolling. Properly designed bearings enhance the wheel’s performance by reducing resistance and minimizing wear.
  • 4. Tread Design: The tread design on the wheel affects its grip, stability, and noise level. Different tread patterns are used for specific applications. For example, smooth treads provide reduced rolling resistance, while treaded designs offer improved traction. The choice of tread design depends on the intended use.
  • 5. Hub and Axle Compatibility: The design of the wheel’s hub and axle connection is essential for secure attachment. It should be compatible with the mounting hardware used in the application. A well-designed hub and axle connection ensure stability and prevent wobbling or detachment during use.
  • 6. Resilience: The design should consider the wheel’s ability to absorb shocks and impacts. Resilient plastic materials can withstand sudden impacts without cracking or breaking. This is especially important in applications where the wheel may encounter rough terrain or obstacles.
  • 7. Temperature Resistance: Depending on the application, plastic wheels may need to withstand a wide range of temperatures. The design should factor in the material’s temperature resistance to ensure that the wheel remains functional in extreme conditions.
  • 8. Size and Dimensions: The size and dimensions of the wheel are critical for load distribution and stability. Properly sizing the wheel according to the application’s requirements ensures optimal performance and durability.
  • 9. Corrosion Resistance: In some environments, corrosion resistance is essential. The design may incorporate materials or coatings that protect against corrosion, ensuring a longer service life.
  • 10. Wheel Mounting: The method of mounting the wheel to the equipment or vehicle is part of the design. It should be secure and reliable to prevent wobbling or detachment during use.
  • 11. Weight Distribution: Proper weight distribution across the wheel is important for even wear and reduced stress on the wheel. Design considerations may include the wheel’s shape and load-bearing capacity to ensure even weight distribution.

A well-designed plastic wheel takes into account these factors to maximize its durability and performance. It should be capable of withstanding the demands of its intended application while providing smooth and reliable movement.

China high quality Plastic Aluminums Stainless Steel Zinc Hydraulic Control Marine Steering Wheel for Ship Yacht  China high quality Plastic Aluminums Stainless Steel Zinc Hydraulic Control Marine Steering Wheel for Ship Yacht
editor by CX 2024-04-03