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We Are Precision Metal Parts Manufacturer And We Providing Custom Processing Service. Send Us Drawings, We Will Feedback You Quotation Within 24 Hours

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Our Advantages

 

Equipment
3-axis, 4-axis and full 5-axis processing equipment, CNC lathe, centering machine, turning and milling compound, wire cutting, EDM, grinding, etc

Processing
CNC machining, CNC Turning, CNC Milling, Welding, Laser Cutting, Bending, Spinning, Wire Cutting, Stamping, Electric Discharge Machining (EDM), Injection Molding

Materials
Aluminum, metal, steel, metal, plastic, metal, brass, bronze, rubber, ceramic, cast iron, glass, copper, titanium, metal, titanium, steel, carbon fiber, etc

Tolerance
+/-0.01mm, 100% QC quality inspection before delivery, can provide quality inspection form

Quality Assurance
ISO9001:2015, ISO13485:2016, SGS, RoHs, TUV
Tolerance

Surface Treatment

Aluminum parts Stainless Steel parts Steel parts Brass parts
Clear Anodized Polishing Zinc Plating Nickel Plating
Color Anodized Passivating Oxide black chrome plating
Sandblast Anodized Sandblasting Nickel Plating Electrophoresis black
Chemical Film Laser engraving Chrome Plating Oxide black
Brushing Electrophoresis black Carburized Powder coated
Polishing Oxide black Heat treatment  

 

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Application industry

CNC Machining Parts Can Be Used in Many Industry

Aerospace/ Marine/ Metro/ Motorbike/ Automotive industries, Instruments & Meters, Office equipments, Home appliance, Medical equipments, Telecommunication, Electrical & Electronics, Fire detection system, etc

 

Areospace

Cylinder Heads, Turbochargers, Crankshafts, Connecting Rods Pistons, Bearing Caps, CV Joints, Steering Knuckles, Brake Calipers,Gears,Differential Housing, Axle Shafts

 

Auto&Motorcycle

Cylinder Heads, Turbochargers, Crankshafts, Connecting Rods Pistons,Bearing Caps, CV Joints, Steering Knuckles, Brake Calipers,Gears, Differential Housing, Axle Shafts

 

Energy

Drill Pipes and Casing, Impellers Casings, Pipe Control Valves, Shafts, Wellhead Equipment, Mud Pumps, Frac Pumps, Frac Tools,Rotor Shafts and disc

 

Robotics

Custom robotic end-effectors, Low-volume prototype, Pilot, Enclosures, Custom tooling, Fixturing

 

Medical Industry

Rotary Bearing Seal Rings for CHINAMFG Knife,CT Scanner Frames,Mounting Brackets,Card Retainers for CT Scanners,Cooling Plenums for CT Scanners,Brackets for CT Scanners,Gearbox Components,Actuators,Large Shafts

 

Home Appliances

Screws, hinges, handles, slides, turntables, pneumatic rods, guide rails, steel drawers

 

Certifications

FAQ

Q1. What kind of production service do you provide?
CNC machining, CNC Turning, CNC Milling, Welding, Laser Cutting, Bending, Spinning, Wire Cutting, Stamping, Electric Discharge Machining (EDM), Injection Molding, Simple Assembly and Various Metal Surface Treatment.

Q2. How about the lead time?
Mould : 3-5 weeks
Mass production : 3-4 weeks

Q3. How about your quality?
♦Our management and production executed strictly according to ISO9001 : 2008 quality System.
♦We will make the operation instruction once the sample is approval. 
♦ We will 100% inspect the products before shipment.
♦If there is quality problem, we will supply the replacement by our shipping cost.

Q4. How long should we take for a quotation?
After receiving detail information we will quote within 24 hours

Q5. What is your quotation element?
Drawing or Sample, Material, finish and Quantity.

Q6. What is your payment term?
Mould : 50% prepaid, 50% after the mould finish, balance after sample approval.
Goods : 50% prepaid, balance T/T before shipment.

Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car, Aerospace/ Marine/Automotive/Medical Equipments
Hardness: Soft Tooth Surface
Gear Position: External Gear
Manufacturing Method: Machining,Milling,Stamping,Laser Cutting,etc
Toothed Portion Shape: Spur Gear
Material: Stainless Steel
Samples:
US$ 0.8/Piece
1 Piece(Min.Order)

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Customization:
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bevel gear

What are the advantages and disadvantages of using a bevel gear?

Bevel gears offer several advantages and disadvantages when used in mechanical systems. Understanding these pros and cons is crucial for selecting the appropriate gear type for a given application. Here’s a detailed explanation of the advantages and disadvantages of using a bevel gear:

Advantages of Bevel Gears:

  • Power Transmission at Different Angles: Bevel gears are specifically designed to transmit power between intersecting shafts at different angles. They allow for efficient torque transmission and direction changes in applications where the input and output shafts are not parallel. This flexibility makes bevel gears suitable for a wide range of mechanical systems.
  • Compact Design: Bevel gears have a compact and space-efficient design, allowing them to be used in applications with limited space constraints. Their ability to transmit power at an angle helps in optimizing the layout and arrangement of components in machinery and equipment.
  • High Efficiency: Well-designed and properly maintained bevel gears can achieve high power transmission efficiency, typically above 95%. The efficient tooth engagement and load distribution in bevel gears minimize power losses due to friction and mechanical inefficiencies, resulting in energy-efficient operation.
  • Smooth and Quiet Operation: Bevel gears generally provide smooth and quiet operation in properly designed and well-maintained systems. The meshing of the gear teeth is designed to minimize noise and vibration, ensuring smooth power transmission and reducing the need for additional noise-reducing measures.
  • Versatility: Bevel gears are available in various configurations, including straight bevel, spiral bevel, and hypoid bevel gears. This versatility allows them to be used in a wide range of applications across different industries, accommodating different load capacities, speed requirements, and operating conditions.
  • High Load Capacity: Bevel gears are capable of handling high loads and transmitting substantial amounts of torque. Their robust design, accurate tooth engagement, and strong materials make them suitable for heavy-duty applications where reliable power transmission is required.

Disadvantages of Bevel Gears:

  • Complex Manufacturing: Bevel gears are more complex to manufacture compared to other gear types due to their three-dimensional shape and intricate tooth profiles. The manufacturing process involves specialized equipment and expertise, which can increase production costs.
  • Cost: Bevel gears, especially those with high precision and load capacities, can be relatively expensive compared to other types of gears. The cost of materials, manufacturing complexity, and quality requirements contribute to their higher price.
  • Potential for Noise and Vibration: In certain operating conditions, such as high speeds or misaligned gears, bevel gears can generate noise and vibration. This can be mitigated through proper design, accurate manufacturing, and maintenance practices, but additional measures may be necessary to reduce noise and vibration levels in some applications.
  • Sensitive to Misalignment: Bevel gears are sensitive to misalignment, which can lead to increased friction, accelerated wear, and reduced efficiency. Proper alignment and control of backlash are essential for optimal performance and longevity of the gear system.
  • Complex Lubrication: The lubrication of bevel gears can be more challenging compared to parallel-axis gears. Due to their angled tooth engagement, ensuring proper lubrication film thickness and distribution across the gear teeth requires careful consideration. Inadequate or improper lubrication can result in increased friction, wear, and reduced efficiency.

It’s important to consider these advantages and disadvantages of bevel gears in the context of specific applications and operating conditions. Proper design, selection, manufacturing, and maintenance practices can help maximize the benefits of bevel gears while mitigating their limitations.

bevel gear

How do you calculate the efficiency of a bevel gear?

To calculate the efficiency of a bevel gear, you need to compare the power input to the gear with the power output and account for any losses in the gear system. Here’s a detailed explanation of the calculation process:

The efficiency of a bevel gear can be calculated using the following formula:

Efficiency = (Power output / Power input) x 100%

Here’s a step-by-step breakdown of the calculation:

  1. Calculate the Power Input: Determine the power input to the bevel gear system. This can be obtained by multiplying the input torque (Tin) by the input angular velocity (ωin), using the formula:
  2. Power input = Tin x ωin

  3. Calculate the Power Output: Determine the power output from the bevel gear system. This can be obtained by multiplying the output torque (Tout) by the output angular velocity (ωout), using the formula:
  4. Power output = Tout x ωout

  5. Calculate the Efficiency: Divide the power output by the power input and multiply by 100% to obtain the efficiency:
  6. Efficiency = (Power output / Power input) x 100%

The efficiency of a bevel gear represents the percentage of input power that is effectively transmitted to the output, considering losses due to factors such as friction, gear meshing, and lubrication. It is important to note that the efficiency of a bevel gear system can vary depending on various factors, including gear quality, alignment, lubrication condition, and operating conditions.

When calculating the efficiency, it is crucial to use consistent units for torque and angular velocity. Additionally, it’s important to ensure that the power input and output are measured at the same point in the gear system, typically at the input and output shafts.

Keep in mind that the calculated efficiency is an approximation and may not account for all the losses in the gear system. Factors such as bearing losses, windage losses, and other system-specific losses are not included in this basic efficiency calculation. Actual efficiency can vary based on the specific design and operating conditions of the bevel gear system.

By calculating the efficiency, engineers can evaluate the performance of a bevel gear and make informed decisions regarding gear selection, optimization, and system design.

bevel gear

How do bevel gears differ from other types of gears?

Bevel gears have distinct characteristics that set them apart from other types of gears. Here’s a detailed explanation of how bevel gears differ from other gears:

1. Tooth Geometry: Bevel gears have teeth cut on the cone-shaped surface of the gears, whereas other types of gears, such as spur gears and helical gears, have teeth cut on cylindrical surfaces. The tooth geometry of bevel gears allows them to accommodate intersecting shafts and transmit rotational motion at different angles.

2. Axis Orientation: Bevel gears have intersecting axes, meaning the shafts they are mounted on intersect each other. In contrast, other types of gears typically have parallel or skewed axes. The intersecting axis of bevel gears allows for changes in direction and allows for power transmission between shafts that are not in a straight line.

3. Types of Bevel Gears: Bevel gears come in different variations, including straight bevel gears, spiral bevel gears, and hypoid bevel gears. Straight bevel gears have straight-cut teeth and intersect at a 90-degree angle. Spiral bevel gears have curved teeth that are gradually cut along the gear surface, providing smoother engagement and reduced noise. Hypoid bevel gears have offset axes and are used when the intersecting shafts are non-parallel. Other types of gears, such as spur gears and helical gears, also have their own variations but do not typically involve intersecting axes.

4. Direction of Motion: Bevel gears can change the direction of rotational motion between intersecting shafts. Depending on the orientation of the gears, the direction of rotation can be reversed. This capability makes bevel gears suitable for applications where changes in direction are required. In contrast, other gears, such as spur gears and helical gears, transmit motion in a specific direction along parallel or skewed axes.

5. Load Distribution: Bevel gears distribute loads differently compared to other gears. Due to the conical shape of the gears, the contact area between the teeth changes as the gears rotate. This can result in varying load distribution along the gear teeth. Other gears, such as spur gears and helical gears, have a consistent load distribution along their teeth due to their cylindrical shape.

6. Applications: Bevel gears are commonly used in applications where changes in direction or speed of rotational motion are required, such as automotive differentials, marine propulsion systems, and power transmission systems. Other types of gears, such as spur gears and helical gears, are more commonly used in applications where parallel or skewed shafts are involved and changes in direction are not necessary.

While bevel gears have their unique characteristics, it’s important to note that different types of gears have their own advantages and applications. The selection of the appropriate gear type depends on factors such as the application requirements, operating conditions, space limitations, and load considerations.

In summary, bevel gears differ from other types of gears in terms of tooth geometry, axis orientation, types of variations available, direction of motion, load distribution, and applications. Their ability to accommodate intersecting shafts and change the direction of rotational motion makes them suitable for specific applications where other types of gears may not be as effective.

China best Machining Parts OEM Customized Herringbone Spur Gear, Bevel Gear and Helical Gear for Light Truck bevel gearboxChina best Machining Parts OEM Customized Herringbone Spur Gear, Bevel Gear and Helical Gear for Light Truck bevel gearbox
editor by CX 2023-10-24