Product Description

Product Description

Basic information:

Model no	customized	Color	as your demand
Blank Process	china manufacturing steel forging	Forging tolorance	according to drawing
Machining Process	CNC machining/lathing/milliing/turning/boring	Machined surface quality	according to your requirement
Machining Tolearnce	from 0.005mm-0.01mm-0.1mm	Surface treatment	as your demand
Package for Steel forging	Pallet or as your demand	Transportation package	pallets
Service for Steel forging	metal parts solution as per customer’s drawing	Trade mark	none
Certifications	ISO9001,IATF16949,	HS code	7257190000
origin	china

    Our products main includes tracking shoes, flanges in engineering machines and steering knuckle in auto parts.
  Our business scope includes automobile, motorcycle and accessories, industrial equipment and components, manufacturing and processing machinery, metallurgical minerals and energy, hardware tools, transportation ect.we could manufacture as your demand.
Click this link for more products: product-list-1.html
 

Our Advantages

  Manufacturing capability covers the whole production process of forged parts, from mold design and manufacturing, forging, secondary processing, heat treatment, surface treatment to finishing, to provide customers with ready to use products and services.

 

Company Profile

1. ISO16949 Quality Management System Certification Factory.
2. We use advanced computer and technology (CAD) to design in manufacturing and mold manufacturing.
3. Our 8000 ton JTLY hydraulic forging machine, with a cold impact force of 1600 tons, is a super large forging machine in China. Its main products are large axial precision forging and 100kg to 300kg, with an annual output of 30000 pieces.
4. Our 2500 ton electric forging production line mainly produces 15kg to 30kg precision forging parts, with an annual output of more than 50000 pieces.
5. Our company has a variety of processing equipment, can make their own molds and processing.
6. Our company is equipped with a full set of heat treatment lines to ensure that your product quality is within our control.

Quality control: Strictly enforce the spirit of quality supreme excellence; fully implement ISO / 9001 quality management system; carry out incoming inspection of raw materials, production process control and product quality inspection
physical and chemical laboratory:It can realize tensile impact test, chemical composition test, metallographic structure, hardness and other tests at normal and low temperatures.

Certifications

Cooperative Partner

Exhibitions&Customers

Stock&Packing

FAQ

1:Are you a genuine manufacturer?
Yes, all products showed in our website are produced in our  certified factory; We are also a company registered by China Customs with the right to export and import.  

2: I want to keep our design in confidence; can we CZPT NDA?
Sure, to protect customers’ profit is our obligatory responsibility, signed NDA would be valid to both of us.. 

3:What should I offer to get your quotation?
Please offer us your detailed information for the product, such as drawings with 2D/3D by software Pro/E, Auto CAD, SolidWorks, UG etc; as well as materials, surface treatment, quantity, package. Any special requirements should be highlighted especially for tolerance.  

4:How long is the manufacturing lead time?
Mass Production:30-45 working days after sample approval by yours.The lead time is the general production period without the transportation time.
We could make some special production arrangement effectively if customer has urgent need.

5:How long does it take to ship goods from China by sea?
It takes about 5 weeks to European ports plus 1 week customs clearance, so you can get the container within 6 to 7 weeks.It takes about 2 weeks to east coast and 3 weeks to west coast US ports.All sea goods are shipped from HangZhou Port.

6:How long does it take to ship goods from China by air?
It takes about 7 days to all major destinations.

7:What are the payment terms?
Payment terms are negotiable and will improve for long term customers.During the initial stages, we request 50% of tooling fee in advance with the balance payable on acceptance of samples.Production orders can be negotiable.We prefer 30% deposit and the balance by T/T before sails.But sometimes T/T15 days after sails would also acceptable.

8:New product development process
Got tooling order and sample order with 50% deposit—Hold a meeting with the relation dept.To ensure the developing schedule—Design mould, fixture and gauge and making them in our factory—mould.fixture and gauge making—producing samples—approved from customer-purchasing material-forging-heat treatment-shot blasting-machining-Inspection-package—delievery.

9:How to handle the complains?
–If happen any complaints after delivery,please just show us photos and detail compliants points, we will check with the production department and QC department Immediately and give you best solving solution which agreed by both of us.

Jackie Jiang is always at your service !

Certification:	IATF16949
Tons of Our Manufaturing Machine:	8000tons
Do You Have ISO Certification:	Sure ISO9001:2015
The Weight Range of Our Products:	0.5kg to 300kg
The Material We Use Usually:	45#, 35#, 40cr, 42CrMo, 30crmnsia
Could We Do OEM:	of Course Yes

Samples:	US$ 200/Piece 1 Piece(Min.Order) | Request Sample

Customization:	Available | Customized Request

What are the temperature limits for the operation of drive sprockets?

The temperature limits for the operation of drive sprockets depend on the material used in their construction and the specific application they are intended for. Different materials have different temperature ranges in which they can effectively function without significant degradation or failure. Here are some general guidelines regarding temperature limits for common drive sprocket materials:

• 1. Steel Sprockets: Steel sprockets are widely used and have a broad temperature range. In most cases, they can operate efficiently within temperatures ranging from -20°C to 250°C (-4°F to 482°F). However, for high-temperature applications beyond this range, special heat-resistant steels may be required.
• 2. Cast Iron Sprockets: Cast iron sprockets are suitable for temperatures between -20°C to 200°C (-4°F to 392°F). They are commonly used in various industrial applications.
• 3. Plastic or Nylon Sprockets: These sprockets have lower temperature limits and are generally suitable for temperatures ranging from -40°C to 100°C (-40°F to 212°F). They are often used in lighter-duty applications.
• 4. Aluminum Sprockets: Aluminum sprockets have a temperature range of about -40°C to 150°C (-40°F to 302°F). They are commonly used in lightweight applications where weight is a critical factor.

It’s essential to select the appropriate material for your drive sprocket based on the operating conditions and temperature requirements of your specific application. Extreme temperatures outside the recommended range can lead to premature wear, reduced performance, and even failure of the sprocket.

Always refer to the manufacturer’s specifications and consult with experts in the field to ensure that you are using the right type of drive sprocket for the temperature conditions in your application.

Can drive sprockets be used in agricultural machinery and equipment?

Yes, drive sprockets are commonly used in various agricultural machinery and equipment. They play a critical role in power transmission systems that are utilized in agricultural applications. Here are some of the agricultural machinery and equipment where drive sprockets are commonly employed:

• Tractors: Tractors are a fundamental part of modern agriculture, and drive sprockets are used in the transmission system to transfer power from the engine to the wheels or tracks. Sprockets are crucial components in both wheeled and tracked tractors, ensuring efficient power delivery for various agricultural tasks.
• Combine Harvesters: Drive sprockets are used in combine harvesters to transfer power from the engine to the wheels or tracks, allowing for precise control and smooth movement during harvesting operations.
• Balers: Agricultural balers use drive sprockets in their power transmission systems to drive the mechanisms responsible for compacting and baling crops such as hay, straw, or silage.
• Planters and Seeders: Drive sprockets are utilized in planting and seeding equipment to ensure precise and consistent seed placement and spacing in the field.
• Sprayers: Agricultural sprayers use drive sprockets in their transmission systems to power the spraying mechanisms, ensuring even and efficient distribution of fertilizers, herbicides, and pesticides.
• Harvesting Machines: Various harvesting machines, such as grain harvesters and fruit harvesters, rely on drive sprockets to power the harvesting mechanisms and conveyors.
• Tillage Equipment: Drive sprockets are used in tillage equipment to transfer power to the cutting and tilling components, preparing the soil for planting.
• Irrigation Systems: Drive sprockets are employed in agricultural irrigation systems, such as center pivot systems, to control the movement of the irrigation equipment across the field.

Drive sprockets in agricultural machinery are often subjected to challenging conditions, including dust, dirt, and varying terrains. Therefore, it is essential to use high-quality sprockets made from durable materials, such as steel or hardened alloys, to withstand the demanding agricultural environment.

Regular maintenance, including proper lubrication and inspection for wear and damage, is crucial to ensure the reliable operation and longevity of drive sprockets in agricultural machinery. By adhering to recommended maintenance schedules and replacing worn components promptly, farmers and agricultural operators can optimize the performance and productivity of their equipment.

What are the factors that affect gear ratios in drive sprockets and how do they impact performance?

Gear ratios in drive sprockets play a critical role in determining the relationship between the rotational speeds and torques of the driving and driven components in a power transmission system. Several factors can affect gear ratios, and each has a specific impact on the performance of the system. Here are the key factors to consider:

1. Number of Teeth: The number of teeth on the driving and driven sprockets directly affects the gear ratio. A larger number of teeth on the driving sprocket compared to the driven sprocket results in a higher gear ratio, which increases the output torque while reducing the output speed. Conversely, a smaller number of teeth on the driving sprocket relative to the driven sprocket leads to a lower gear ratio, increasing the output speed while decreasing the output torque.
2. Sprocket Pitch Diameter: The pitch diameter is the diameter of the imaginary circle formed by the centers of the sprocket’s teeth. It affects the circumferential speed of the sprockets. A larger pitch diameter on the driving sprocket relative to the driven sprocket will result in a higher gear ratio and lower output speed, while a smaller pitch diameter on the driving sprocket will lead to a lower gear ratio and higher output speed.
3. Chain Pitch: The pitch of the chain or belt used in the system must match the pitch of the sprockets to ensure proper engagement. Using sprockets and chains with different pitches will result in incorrect gear ratios and potential slippage or skipping issues.
4. Center Distance: The distance between the centers of the driving and driven sprockets, known as the center distance, affects the engagement of the chain or belt. Proper center distance is essential for maintaining correct tension and preventing premature wear.
5. Sprocket Material and Condition: The material and condition of the sprockets impact their durability and performance. High-quality materials and well-maintained sprockets are essential for achieving consistent gear ratios and minimizing wear on the chain or belt.
6. Environmental Conditions: Extreme temperatures, corrosive environments, or abrasive particles can affect the performance of the sprockets and chain, leading to premature wear and altered gear ratios.
7. Load and Torque Requirements: The load and torque demands of the driven component will influence the choice of gear ratio. Selecting the appropriate gear ratio ensures that the system can handle the required load and torque while providing the desired output speed.
8. System Efficiency: Gear train efficiency can impact the overall performance of the power transmission system. Efficiency losses in the gear train will affect the actual output torque and speed compared to the theoretical gear ratio.

It’s essential to carefully consider these factors when designing a power transmission system with drive sprockets to achieve the desired performance, efficiency, and longevity. Consulting with experienced engineers or sprocket manufacturers can help in selecting the optimal gear ratios for specific applications.

editor by CX 2023-08-03