Product Description
Excellent OEM V Belt Aluminum Keyway Pulley Air Condition Fixed Pulley
Why Choose us
1. Own mould R&D team and mould making workshop.
2. Own factory to offer the reasonable prices and quick response.
3. Complete service from mould, production, heat treatment, surface treatment, assemble.
4. 20years experience for die casting.
5. Squeeze casting+T6 — to make the parts with lightweight and strong strength.
Process | Aluminum Die casting, Squeeze casting+T6, Zinc Alloy die casting,CNC machining, Turning |
Equipment | Cold chamber die casting machine:200T/280T/400T/600T/800T/1100T.CNC centers, CNC turning, CNC lathes, electrical pulse, line cutting, milling, drilling, grinding |
Material | A319, A356, A360, A369, A380, A383, A384, A413, A535, 44300, 44300, 46000, AlSi9Mg, AlSi9Cu3, ADC12, ZL102, ZL104, ZL108, Zamak2,3,5,7 ect. Squeeze Casting: A356+T6, A356.2+T6, AlSi9Mg+T6, Zl108+T6, AlTi-Alloy+T6 |
Surface | Trimming, Deburring,Polishing, Shot blasting, Sand blasting,Tumbling, Powder coating, Anodizing, Chrome, Zinc, Electrophoresis, Passivation, Chemical coating. |
Software Assistance | Pro-e/Solid work/UG/Auto CAD/CATIA |
Products Application | Automotive industry, Bicycle and motorcycle, Door and windows and furniture, Household appliance, Gas meter, Power tool,LED lighting, Medical instrument parts, ect. |
As a manufacturer, it is a great advantage to have our own moulds workshop, to make the perfect parts by saving time and costs. Set with full machines and skilled team, we can finish moulds very quickly for some big project with more than 50 models of parts. And changing or testing new samples always are free to customer and to be finished within short time.
Full equipments support us the enough production capacity. We can make a wide range of parts from 0.01kg ~ 20kg. We can offer a very short lead time for you and adjust our production shifts according to customers urgent needs.
Aluminum Lightweight Production–Squeeze casting
We have developed the process of squeeze casting successfully. After T6 treatment, parts will be same level of strength and hardness as forging, but not need so much machining jobs, then finally realized the high strength and light weight of production.
Process introduction:
-Integrated the advantages of forging and die casting.
-Parts forming under vacuum & high pressure conditions.
-Parts are made with very high density, very strong strength & hardness after T6.
-Roughness of parts are as same as the die casting.
-Precision with no more machining for some complex structure
1. Can we get your free samples?
A. For the samples in our stocksize, sure, we’d love to provide you for free to test the quality, but hope you can bear the Freight cost.
B. For the customized samples, we can also open a new mould as your requests, but hope you can bear this samples cost.
2.What is the normal lead time?
A. For stock products, we will send goods to you within 1~7days after receiving your payment.
B. For mass production, lead time is around 30~40days, and longer if need open new mould.
3. Shipping
A. For small trial order,FEDEX, DHL, UPS, TNT etc can be provided.
B. For larger order,we can arrange shipment by sea or by air according to your requirement
Die Casting Machine Type: | Cold Chamber Die Casting Machine |
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Die Casting Method: | Precision Die Casting |
Application: | Agricultural Machinery Parts |
Machining: | CNC Machining |
Material: | Aluminum Alloy |
Surface Preparation: | Deburring |
Samples: |
US$ 3/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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How do fixed pulleys contribute to the precision and control of lifting and lowering operations?
Fixed pulleys play a crucial role in enhancing the precision and control of lifting and lowering operations. By incorporating fixed pulleys into a system, several benefits can be achieved, allowing for more precise and controlled movements. Here are ways in which fixed pulleys contribute to the precision and control of lifting and lowering operations:
- Force Distribution: Fixed pulleys help distribute the applied force more evenly throughout the system. By introducing additional pulleys, the load can be divided into multiple segments, reducing the strain on individual components. This even distribution of force minimizes the risk of overload on specific parts of the system, ensuring better control and preventing premature equipment failure.
- Reduction of Friction: Fixed pulleys can reduce friction during lifting and lowering operations. The use of pulleys with low-friction materials and designs, such as ball bearings or bushings, helps to minimize resistance and improve the overall efficiency of the system. Reduced friction allows for smoother movements, enabling greater precision and control over the lifting and lowering process.
- Directional Control: Fixed pulleys enable precise directional control of the load. By changing the direction of the rope or cable through the fixed pulleys, operators can guide the load along a desired path. This directional control is particularly useful when navigating tight spaces, avoiding obstacles, or aligning the load with precision. It allows for more accurate positioning and prevents unintended movements or shifts during the lifting or lowering operation.
- Load Stabilization: Fixed pulleys contribute to load stabilization and minimize swinging or oscillation of the load. The configuration of fixed pulleys can help dampen and control the movement of the load, reducing unwanted swinging or swaying. This is especially important when handling delicate or sensitive items that require minimal disturbance or precise placement.
- Gradual Speed Control: Fixed pulleys allow for gradual speed control during lifting and lowering operations. By adjusting the tension on the rope or cable, operators can regulate the speed at which the load is raised or lowered. The mechanical advantage provided by fixed pulleys facilitates smooth and controlled movements, preventing sudden or jerky motions that could potentially damage the load or compromise safety.
- Incremental Positioning: Fixed pulleys enable incremental positioning of the load. By adjusting the tension on the rope or cable incrementally, operators can achieve precise positioning of the load at various heights or locations. This level of control is especially valuable in tasks that require accurate alignment or when working in confined spaces where fine adjustments are necessary.
- Operator Effort: Fixed pulleys reduce the amount of physical effort required from the operator during lifting and lowering operations. The mechanical advantage provided by fixed pulleys helps multiply the force applied by the operator, making it easier to control heavy loads or objects. This reduces operator fatigue, improves safety, and allows for more precise and controlled movements.
By leveraging the advantages offered by fixed pulleys, lifting and lowering operations can be performed with greater precision, improved control, and enhanced safety. The integration of fixed pulleys into lifting systems provides operators with the necessary tools to achieve accurate positioning, gradual speed control, load stabilization, and efficient force distribution, ultimately contributing to successful and controlled lifting and lowering operations.
How does the configuration of sheaves on a fixed pulley affect its performance?
The configuration of sheaves on a fixed pulley plays a crucial role in determining its performance and functionality. Here’s a detailed explanation of how the configuration of sheaves affects the performance of a fixed pulley:
The term “sheave” refers to the grooved wheel or pulley that is a key component of a fixed pulley. The configuration of sheaves refers to the arrangement and number of sheaves used in a fixed pulley system. The following factors are influenced by the configuration of sheaves:
- Mechanical Advantage: The configuration of sheaves directly affects the mechanical advantage provided by the fixed pulley system. Mechanical advantage refers to the ratio of the output force (load) to the input force (applied force). By increasing the number of sheaves in the system, the mechanical advantage can be enhanced. For example, a compound pulley system with multiple sheaves can significantly reduce the amount of force required to lift a heavy load.
- Efficiency: The configuration of sheaves can impact the efficiency of a fixed pulley system. Efficiency refers to the ratio of output work to input work. In general, the more sheaves in the system, the greater the frictional losses and the lower the overall efficiency of the system. However, using high-quality bearings and proper lubrication can help minimize friction and improve efficiency.
- Load Capacity: The configuration of sheaves also affects the load capacity of a fixed pulley system. By distributing the load across multiple sheaves, the system can handle heavier loads without compromising safety or performance. The load capacity is influenced by factors such as the strength of the sheaves, the material of the sheaves, and the construction of the pulley system.
- Flexibility and Directional Control: The configuration of sheaves can impact the flexibility and directional control of a fixed pulley system. By arranging the sheaves in different configurations, it is possible to achieve specific movement patterns or change the direction of the applied force. This flexibility and directional control are particularly useful in tasks that require precise positioning or movement of objects.
- Space and Weight: The configuration of sheaves can also affect the space and weight requirements of a fixed pulley system. Adding more sheaves to the system may increase its size and weight. This factor needs to be considered, especially in applications where space is limited or where portability is important.
It’s important to note that the configuration of sheaves is not limited to a single type or arrangement. Different pulley systems can have varying numbers and arrangements of sheaves, depending on the specific task requirements and desired outcomes. Manufacturers often provide guidelines and recommendations for the optimal configuration of sheaves based on the intended use of the fixed pulley system.
In summary, the configuration of sheaves on a fixed pulley significantly affects its performance. It determines the mechanical advantage, efficiency, load capacity, flexibility, directional control, space requirements, and weight of the pulley system. By carefully considering the configuration of sheaves, users can tailor the system to meet their specific needs and achieve optimal performance in various applications.
How does a fixed pulley assist in lifting and lowering objects?
A fixed pulley plays a crucial role in lifting and lowering objects by changing the direction of the applied force. Here’s a detailed explanation of how a fixed pulley assists in lifting and lowering objects:
When it comes to lifting and lowering objects, a fixed pulley provides a mechanical advantage by altering the direction of the force applied to the rope or cable. Here’s how it works:
- Attachment: The fixed pulley is securely attached to a stationary structure or framework, ensuring its stability during operation.
- Load Connection: The object to be lifted or lowered is connected to the rope or cable that runs through the groove of the fixed pulley.
- Force Application: As force is applied downward on one side of the rope or cable, the fixed pulley changes the direction of that force upward on the other side.
- Tension Distribution: The force applied to the rope or cable creates tension throughout its length. The tension is transmitted from the side where the force is applied to the side connected to the load.
- Lifting or Lowering: By pulling or releasing the rope or cable, the user can apply a force that causes the load to be lifted or lowered, depending on the desired direction.
The fixed pulley does not provide any mechanical advantage in terms of reducing the effort required to lift or lower the load. However, it does offer a significant advantage by changing the direction of the force. This change in direction can be advantageous in various lifting scenarios:
- Vertical Lifting: In a vertical lifting scenario, a fixed pulley can be used to change the direction of the applied force from downward to upward. This makes it easier to lift a load against the force of gravity.
- Horizontal Movement: A fixed pulley can also assist in moving objects horizontally. By changing the direction of the force, it allows for controlled movement along a desired path.
- Combined Systems: Fixed pulleys are often used in combination with other pulleys, such as movable pulleys or compound pulley systems, to create force multipliers and increase the mechanical advantage in lifting or pulling applications.
It’s important to note that while a fixed pulley changes the direction of the applied force, it does not reduce the overall amount of force required to lift or lower the load. To achieve a mechanical advantage and reduce the effort required, fixed pulleys are often combined with other pulleys in more complex systems.
In summary, a fixed pulley assists in lifting and lowering objects by changing the direction of the applied force. It does not provide a mechanical advantage on its own but is an essential component in various lifting scenarios, allowing for controlled movement and facilitating the transfer of force from the user to the load.
editor by CX
2023-09-26