China factory Wire Twisting Machine Assembly Gp40A Traverse Unit Rolling Ring Drive

Product Description

Product Description

Wire twisting machine assembly GP40A traverse unit rolling ring drive
Manufacturer of automatic linear transmission gear with well-equipped testing facilities and strong technical force

Type  GP40A
Shaft Diameter 40 mm
Number of Rolling Rings 3 Pieces
Maximum Thrust(N) 420 N
Weight-Bearing(KG) 42 kg
Maximum Pitch(mm) 32 mm
Weight(KG) 12 kg

 

Product Parameters

Detailed Photos

 

ROTATION DIRECTION (CAN CHANGE)

 

Packaging & Shipping

Package Material

 

Wooden Box or Carton

Package Detail

 

1piece or 5 pieces per carton package or wooden carton

Delivery Way

 

Deliver the goods by express, like UPS, DHL, FedEx or by sea shipment or according to customer’s requirement

 

Product Application

Rolling ring drive/ traverse unit device is mostly used in industry. Used in textile machine, wire spooling machine, traverse winding machine, wire winding machine, linear drive system, medical equipment, etc.
 

Different Type of Product

Rolling Ring Drive has GPA, GPB, CHINAMFG Series, It is widely used in wire,steel wire,electrical wire, cable, textile industry etc.
A Series : Rolling ring drives Type A Series just have 1 rolling ring linear drive box , which are divided into six types according to the diameter of the shafts.

B Series: Rolling ring drives Type B Series have One Rolling Ring linear drive with Xihu (West Lake) Dis. Rollers or Xihu (West Lake) Dis. Wheel , which are divided into 6 types according to the diameter of the shafts. 

C Series : Rolling ring drives Type C Series have One Rolling Ring linear drive with accessories, such as shaft,guide roller,bearing block,steady bar,etc , which are divided into six types according to the diameter of the shafts. 

FAQ

 

Q1. What is your terms of packing?
A: Generally, we pack our goods in carton boxes or wooden boxes.

Q2. What is your terms of payment?
A: T/T 100% paymeny in advance, or 30% as deposit, and 70% before delivery. We’ll show you the photos of the products and packages before you pay the balance.

Q3. What is your terms of delivery?

A: EXW, FOB, CFR, CIF, DDU.

Q4. How about your delivery time?
A: Generally, it will send this product within 3 or 5 days after receiving your payment. The specific delivery time depends on the items and the quantity of your order.

Q5. What is your sample policy?
A: We can supply the sample if we have ready parts in stock, but the customers have to pay the sample cost and the courier cost.

Q6. Do you test all your goods before delivery?
A: Yes, we have 100% test before delivery

Q7: How do you make our business long-term and good relationship?
A:1. We keep good quality and competitive price to ensure our customers benefit ;
2. We respect every customer as our friend and we sincerely do business and make friends with them, no matter where they come from.

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Color: Fixed
Customized: Customized
Standard: National
Customization:
Available

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

pitch drive

How do pitch drives contribute to the adaptability and versatility of adjustable systems in various settings?

Pitch drives play a crucial role in enhancing the adaptability and versatility of adjustable systems across various settings. These drives enable precise control over the pitch angles of adjustable components, allowing them to respond dynamically to changing operating conditions. Here’s a detailed explanation of how pitch drives contribute to the adaptability and versatility of adjustable systems:

  • Optimized Performance: By adjusting the pitch angles of blades, propellers, or other adjustable components, pitch drives optimize the performance of adjustable systems. In applications such as wind turbines or marine propulsion systems, pitch drives enable the system to capture maximum energy from the wind or water currents. By adjusting the pitch angles based on real-time conditions, such as wind speed or load demand, pitch drives ensure that the system operates at its peak performance, maximizing energy conversion, and overall efficiency.
  • Load Control and Mitigation: Pitch drives provide load control capabilities, allowing adjustable systems to manage and mitigate excessive loads. By adjusting the pitch angles, the systems can redistribute the loads on components, reducing stress concentrations and minimizing the risk of fatigue or failure. This load control capability is particularly valuable in applications where adjustable systems operate under varying and unpredictable load conditions, such as wind turbines experiencing gusty winds or marine systems encountering wave-induced loads.
  • Dynamic Response: The ability of pitch drives to adjust pitch angles in real-time enables adjustable systems to have a dynamic response to changing operating conditions. For example, in wind turbines, pitch drives can respond to sudden changes in wind speed or direction, allowing the blades to maintain optimal aerodynamic performance and prevent excessive loads. This dynamic response capability enhances the adaptability of adjustable systems, enabling them to quickly adjust and optimize their operation in response to environmental changes.
  • Power Regulation: Pitch drives contribute to the adaptability of adjustable systems by enabling power regulation. By adjusting the pitch angles, the systems can control the power output or torque generation. This is particularly useful in applications such as wind turbines, where pitch drives can regulate the rotational speed of the blades to match the desired power output or grid requirements. This power regulation capability enhances the versatility of adjustable systems by allowing them to operate efficiently across a wide range of power demands or grid conditions.
  • Operational Flexibility: Adjustable systems equipped with pitch drives offer operational flexibility in various settings. The ability to adjust pitch angles allows these systems to adapt to different operating conditions, load profiles, or environmental factors. For example, in wind turbines, pitch drives enable the system to operate optimally in both low and high wind speeds, maximizing energy capture across a wide range of wind conditions. This operational flexibility makes adjustable systems with pitch drives suitable for diverse applications and settings.
  • System Protection: Pitch drives contribute to the adaptability and versatility of adjustable systems by providing system protection features. In situations where excessive loads, extreme weather conditions, or potential hazards are detected, pitch drives can adjust the pitch angles to protect the system from damage or unsafe operating conditions. This proactive system protection capability enhances the adaptability and safety of adjustable systems, allowing them to operate reliably and withstand challenging conditions.

In summary, pitch drives significantly contribute to the adaptability and versatility of adjustable systems by optimizing performance, enabling load control and mitigation, providing dynamic response, regulating power, offering operational flexibility, and ensuring system protection. These capabilities make pitch drives essential components in various settings, ranging from renewable energy generation to marine propulsion, where the ability to adjust and optimize system parameters is critical for efficient and reliable operation.

pitch drive

Can you provide examples of products or machinery that commonly use pitch drives?

There are several products and machinery in various industries that commonly use pitch drives for precise and controlled pitch adjustments. These pitch drives play a crucial role in optimizing performance, efficiency, and safety. Here are some examples of products or machinery that commonly use pitch drives:

  • Wind Turbines: Pitch drives are extensively used in wind turbines to adjust the pitch angle of the turbine blades. By changing the pitch angle, the rotor’s aerodynamic characteristics can be optimized to capture the maximum amount of wind energy. Pitch drives allow wind turbine operators to control the rotational speed, regulate power output, and ensure safe operation under varying wind conditions.
  • Helicopters: Helicopters rely on pitch drives to adjust the pitch angle of the rotor blades. Pitch adjustments enable the helicopter to generate lift, control its altitude, and maneuver in different directions. By changing the pitch angle of individual rotor blades, pitch drives allow for precise control of the helicopter’s flight characteristics, including stability, responsiveness, and load distribution.
  • Marine Propulsion Systems: Pitch drives are commonly used in marine propulsion systems, such as controllable pitch propellers (CPP) or azimuth thrusters. Pitch adjustments in marine propulsion systems allow vessels to optimize their propulsion efficiency, maneuverability, and dynamic positioning capabilities. By changing the pitch angle of the propeller blades, pitch drives enable vessels to adapt to varying operating conditions, such as different speeds, sea states, or maneuvering requirements.
  • Aircraft Propellers: Aircraft with variable-pitch propellers utilize pitch drives to adjust the pitch angle of the propeller blades. By changing the propeller blade pitch, the aircraft can optimize performance during different phases of flight, such as takeoff, climb, cruise, or descent. Pitch drives allow for efficient power management, improved thrust-to-weight ratio, and enhanced control over the aircraft’s speed and climb rate.
  • Industrial Fans: Industrial fans, such as those used in HVAC systems or cooling applications, often incorporate pitch drives for blade angle adjustment. By adjusting the pitch angle of the fan blades, pitch drives enable precise control of airflow, pressure, and energy consumption. This control allows for optimized cooling performance, improved ventilation, and energy efficiency in industrial and commercial settings.
  • Propulsion Systems for Unmanned Aerial Vehicles (UAVs): UAVs, or drones, commonly utilize pitch drives in their propulsion systems. By adjusting the pitch angle of the propellers, pitch drives enable UAVs to control their altitude, stability, and maneuverability. This control is crucial for various applications, including aerial photography, surveillance, package delivery, and scientific research.

These examples highlight the diverse range of products and machinery that commonly use pitch drives for precise and controlled pitch adjustments. Other industries, such as the automotive, robotics, and power generation sectors, may also employ pitch drives in specific applications where pitch angle control is essential for optimized performance and operational safety.

pitch drive

How does the design of a pitch drive contribute to efficient adjustment or movement?

The design of a pitch drive plays a crucial role in enabling efficient adjustment or movement of the pitch angle in machinery or systems. The design factors of a pitch drive are carefully considered to ensure precise control, reliability, and optimal performance. Here’s a detailed explanation of how the design of a pitch drive contributes to efficient adjustment or movement:

The design considerations of a pitch drive include the following aspects:

  • Mechanical Structure: The mechanical structure of a pitch drive is designed to provide the necessary strength, rigidity, and durability to withstand the operational forces and loads. It ensures that the pitch drive can effectively transmit and control the required torque and movement to adjust the pitch angle. The design considers factors such as material selection, component dimensions, and overall structural integrity to ensure efficient adjustment without compromising the system’s reliability.
  • Gearing System: Pitch drives often incorporate gearing systems to transmit and amplify the rotational motion. The design of the gearing system is crucial for efficient adjustment or movement. It ensures precise torque transmission, minimal backlash, and smooth operation. The gear ratio and gear quality are carefully chosen to achieve the desired pitch angle adjustment range and accuracy. The design of the gears also considers factors such as noise reduction, lubrication, and maintenance requirements.
  • Actuation Mechanism: The actuation mechanism of a pitch drive depends on the specific application and requirements. It can involve various technologies such as hydraulic, pneumatic, or electric actuators. The design of the actuation mechanism focuses on providing precise and responsive control over the pitch angle adjustment. Factors such as actuator speed, force or torque output, and control system integration are considered to ensure efficient adjustment or movement.
  • Control System Integration: The design of a pitch drive includes the integration of a control system that governs the pitch angle adjustment. The control system receives input signals or commands and translates them into appropriate actuation signals for the pitch drive mechanism. The design of the control system ensures accurate and responsive control, taking into account factors such as sensor feedback, signal processing, and control algorithms. Efficient control system design facilitates precise and dynamic adjustment of the pitch angle in real-time.

The design features and considerations of a pitch drive contribute to efficient adjustment or movement in several ways:

  • High Precision: The design ensures precise control over the pitch angle, allowing for fine adjustments and accurate positioning. This precision is crucial in applications where small changes in the pitch angle can significantly impact performance, efficiency, or safety.
  • Smooth Operation: The design minimizes friction, backlash, and mechanical vibrations, resulting in smooth and consistent movement during pitch angle adjustment. Smooth operation reduces wear and tear, enhances system reliability, and improves overall performance.
  • Speed and Responsiveness: The design factors in the actuation mechanism and control system to enable fast and responsive pitch angle adjustments. This is particularly important in applications where rapid changes in the pitch angle are required to adapt to dynamic operating conditions.
  • Reliability: The design ensures the pitch drive’s structural integrity, component durability, and system reliability. This contributes to long-term operation without significant maintenance or downtime, enhancing the efficiency and productivity of the machinery or system.
  • Safety: The design incorporates safety features and mechanisms to prevent unintended or excessive pitch angle adjustments. Safety considerations may include limit switches, emergency stop controls, or redundant systems to ensure safe operation and protect against potential hazards.

Overall, the design of a pitch drive is carefully engineered to provide efficient adjustment or movement of the pitch angle. By considering mechanical structure, gearing systems, actuation mechanisms, and control system integration, the design aims to achieve precise control, reliability, and optimal performance in machinery or systems that rely on pitch angle adjustment.

China factory Wire Twisting Machine Assembly Gp40A Traverse Unit Rolling Ring Drive  China factory Wire Twisting Machine Assembly Gp40A Traverse Unit Rolling Ring Drive
editor by Dream 2024-04-30