China Good quality High Performance Stainless Steel Helical Gear for New Energy Automobile with ISO9001 top gear

Product Description

Product Parameters

 

product name High Performance Stainless Steel Helical Gear for New Energy Automobile With ISO9001
  stainless steel , iron , aluminum ,bronze ,carbon steel ,brass , nylon etc .
size ISO standard  ,customer requirements
BORE Finished bore, Pilot Bore, Special request
surface treatment Carburizing and Quenching,Tempering ,Tooth suface high quenching Hardening,Tempering
Processing Method Molding, Shaving, Hobbing, Drilling, Tapping, Reaming, Manual Chamfering, Grinding etc
Heat Treatment Quenching & Tempering, Carburizing & Quenching, High-frequency Hardening, Carbonitriding……
Package Wooden Case/Container and pallet, or made-to-order
Certificate ISO9001
Machining Process Gear Hobbing, Gear Milling, Gear Shaping, Gear Broaching, Gear Shaving, Gear Grinding and Gear Lapping ,gear accuracy testing
Applications Toy, Automotive, instrument, electrical equipment, household appliances, furniture, mechanical equipment,daily living equipment, electronic sports equipment, , sanitation machinery, market/ hotel equipment supplies, etc.
Testing Equipment Rockwell hardness tester 500RA, Double mesh instrument HD-200B & 3102,Gear measurement center instrument CNC3906T and other High precision detection equipments

Company Profile

 

 

 

 

Application Field

 

 

FAQ

 

1. why should you buy products from us not from other suppliers?
We are a 32 year-experience manufacturer on making the gear, specializing in manufacturing varieties of gears, such as helical gear ,bevel gear ,spur gear and grinding gear, gear shaft, timing pulley, rack, , timing pulley and other transmission parts .
2. what services can we provide?
Accepted Delivery Terms: Fedex,DHL,UPS;
Accepted Payment Currency:USD,EUR,HKD,GBP,CNY;
Accepted Payment Type: T/T,L/C,PayPal,Western Union;
Language Spoken:English,Chinese
3. how can we guarantee quality?
1 .Always a pre-production sample before mass production;
2 .Always final Inspection before shipment;   
3 .We have high-precision CNC gear grinding machine, high-speed CNC gear hobbing machine, CNC gear shaping machine, CNC lathe, CNC machining center, various grinding machines, universal gear measuring instrument, heat treatment and other advanced processing equipment. 
4 . We have a group of experienced technical workers, more than 90% of the workers have more than 10 years of work experience in this factory, can accurately control the manufacturing of products and customer needs. We regularly train our employees to ensure that we can produce high-precision and high-quality products that are more in line with our customers’ needs.

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Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car
Hardness: Hardened Tooth Surface
Gear Position: External Gear
Samples:
US$ 5/Piece
1 Piece(Min.Order)

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Order Sample

Customization:
Available

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Customized Request

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

automobile gear

How do gearboxes contribute to the overall performance and acceleration of a car?

Gearboxes play a vital role in the overall performance and acceleration of a car. Here’s a detailed explanation:

1. Gear Ratio:

The primary function of a gearbox is to provide different gear ratios between the engine and the wheels. Each gear ratio determines the relationship between the rotational speed of the engine (measured in RPM) and the rotational speed of the wheels. By changing gears, the gearbox allows the engine to operate more efficiently across a range of speeds.

2. Torque and Power:

Gearboxes help optimize torque and power delivery from the engine to the wheels. Lower gears provide higher torque multiplication, which means greater force is applied to the wheels, resulting in improved acceleration. Higher gears, on the other hand, allow the engine to operate at lower RPMs, maximizing fuel efficiency during cruising or maintaining high speeds.

3. Acceleration:

A well-designed gearbox enables the car to accelerate quickly. Lower gears, such as first and second gears, provide high torque multiplication, allowing the car to overcome inertia and swiftly gain speed from a standstill. As the car gains momentum, higher gears are used to maintain speed efficiently.

4. Engine Operating Range:

Each engine has an optimal operating range where it produces the most power and torque. Gearboxes ensure that the engine operates within this range by allowing the driver to upshift or downshift based on the speed and load conditions. Keeping the engine within the optimal operating range enhances performance and responsiveness.

5. Fuel Efficiency:

Proper gear selection can significantly impact fuel efficiency. By allowing the engine to operate at lower RPMs in higher gears, the gearbox helps reduce fuel consumption during steady-state cruising. Additionally, modern gearboxes often incorporate technologies such as overdrive gears or continuously variable transmissions (CVT) to further optimize fuel efficiency.

6. Adaptive Gearbox Systems:

Some advanced car models feature adaptive gearbox systems that adjust gearshift patterns based on driving conditions, such as throttle input, road gradient, and vehicle speed. These systems aim to provide optimal performance, acceleration, and fuel efficiency by continuously analyzing various parameters and selecting the most appropriate gear ratio.

7. Manual vs. Automatic Gearboxes:

Both manual and automatic gearboxes contribute to the overall performance and acceleration of a car. Manual gearboxes offer more direct control, allowing skilled drivers to optimize gear selection for maximum performance. Automatic gearboxes, on the other hand, use complex algorithms and sensors to shift gears automatically, providing smooth acceleration and convenience.

In summary, gearboxes have a significant impact on the overall performance and acceleration of a car. By providing different gear ratios, optimizing torque delivery, and allowing the engine to operate within its optimal range, gearboxes enhance acceleration, fuel efficiency, and overall driving experience.

automobile gear

Can you explain the concept of downshifting and upshifting in an automobile?

Downshifting and upshifting are fundamental concepts in operating a manual transmission vehicle. Here’s a detailed explanation:

1. Upshifting:

Upshifting refers to the process of shifting to a higher gear while driving. It involves moving the gear lever from a lower-numbered gear to a higher-numbered gear. The purpose of upshifting is to increase the vehicle’s speed while maintaining fuel efficiency and reducing engine RPM. Upshifting is typically done as the engine reaches its optimal RPM range or when the vehicle has gained sufficient speed in the current gear.

2. Downshifting:

Downshifting is the opposite of upshifting and involves shifting to a lower gear. It requires moving the gear lever from a higher-numbered gear to a lower-numbered gear. Downshifting is used to decrease the vehicle’s speed, increase engine RPM, and provide more power when needed, such as during overtaking, ascending steep hills, or slowing down. It allows the engine to operate at a higher RPM range, providing better acceleration and engine braking.

3. Rev Matching:

When downshifting, an important technique called “rev matching” is often employed. Rev matching involves synchronizing the engine speed (RPM) with the rotational speed of the transmission and wheels for a smooth gear engagement. By blipping the throttle or “heel-and-toe” technique, the driver matches the engine RPM to the desired speed in the lower gear before engaging the clutch and shifting down. Rev matching minimizes drivetrain shock, reduces wear on the clutch, and ensures a seamless transition between gears.

4. Benefits of Downshifting:

Downshifting offers several benefits, including:

  • Improved acceleration: Downshifting to a lower gear provides more power and torque, allowing for quicker acceleration when needed.
  • Engine braking: By downshifting and utilizing engine braking, drivers can slow down the vehicle without relying solely on the brakes. This can help maintain control, reduce brake wear, and prevent overheating of the braking system on long descents.
  • Responsive driving: Downshifting allows drivers to have better control over the vehicle’s speed and responsiveness, especially in situations where immediate power is required.

5. Automatic Transmissions:

While the concept of upshifting and downshifting primarily applies to manual transmissions, modern automatic transmissions also incorporate similar principles. Automatic transmissions automatically shift gears based on factors such as vehicle speed, engine load, and driver input. They can upshift and downshift to optimize fuel efficiency, provide smooth acceleration, and deliver appropriate power based on driving conditions.

In summary, upshifting involves shifting to a higher gear to increase speed and maintain fuel efficiency, while downshifting involves shifting to a lower gear to decrease speed, increase power, and utilize engine braking. Downshifting offers benefits such as improved acceleration, engine braking, and responsive driving. Understanding the concept of shifting gears is essential for manual transmission operation and can enhance the driving experience and control over the vehicle.

automobile gear

Can you explain the role of gear ratios in an automobile transmission?

Gear ratios play a crucial role in an automobile transmission. Here’s a detailed explanation:

In an automobile transmission, the gear ratio refers to the ratio of the rotational speed of the engine’s input shaft to the rotational speed of the transmission output shaft, which is connected to the wheels. Different gear ratios are achieved by using gears of varying sizes.

1. Speed and Torque Conversion: The primary function of gear ratios is to convert the engine’s high rotational speed and low torque into lower rotational speed and higher torque at the wheels. Lower gear ratios (such as first or second gear) provide high torque multiplication, which is useful for starting the vehicle or climbing steep hills. Higher gear ratios (such as fifth or sixth gear) allow the engine to operate at lower speeds while maintaining higher vehicle speeds, providing better fuel efficiency and reduced engine wear.

2. Acceleration and Power: By selecting the appropriate gear ratio, the transmission enables the driver to control the vehicle’s acceleration and power delivery. Lower gear ratios provide quick acceleration by multiplying the engine’s torque output. During rapid acceleration, the transmission may stay in lower gears to keep the engine operating within its optimal power band. Higher gear ratios are used for cruising at higher speeds, where less torque is needed to maintain the vehicle’s momentum.

3. Engine Performance: Gear ratios are crucial for optimizing engine performance. Engines have a specific range of speeds called the power band, where they deliver the most power efficiently. By selecting the right gear ratio, the transmission keeps the engine operating within its power band, ensuring optimal performance and responsiveness. This improves the overall driving experience and allows the engine to operate at its most efficient point, resulting in better fuel economy.

4. Load and Terrain Adaptation: Different gear ratios allow the vehicle to adapt to varying loads and terrains. When encountering uphill gradients or carrying heavy loads, lower gear ratios are used to provide the necessary torque for overcoming resistance. Conversely, on flat roads or when the vehicle is lightly loaded, higher gear ratios are utilized to maintain speed while reducing engine RPM and improving fuel efficiency.

5. Gear Shifting: The availability of different gear ratios facilitates gear shifting in manual transmissions. As the vehicle accelerates, the driver can shift to higher gears to reach higher speeds while maintaining optimal engine performance. Similarly, when decelerating or coming to a stop, downshifting to lower gears allows for engine braking and better control of the vehicle.

6. Mechanical Advantage: Gear ratios provide a mechanical advantage by multiplying the engine’s torque output. Lower gear ratios offer higher torque multiplication, enabling the vehicle to overcome resistance and handle demanding tasks. This mechanical advantage is particularly useful during towing, off-road driving, or situations requiring increased traction.

Overall, gear ratios in automobile transmissions enable the engine’s power and torque to be transmitted to the wheels efficiently. They allow for speed and torque conversion, adaptation to different driving conditions, optimization of engine performance, and control over the vehicle’s acceleration and power delivery.

China Good quality High Performance Stainless Steel Helical Gear for New Energy Automobile with ISO9001 top gearChina Good quality High Performance Stainless Steel Helical Gear for New Energy Automobile with ISO9001 top gear
editor by Dream 2024-05-07