Product Description
Custom CNC Milling Turning Service Precision Steel Bevel Helic Rack Gears Pinion
Metal Gears Spur Plastic Gear Sets
| Material | 1) Aluminum: AL 6061-T6, 6063, 7075-T etc. |
| 2) Stainless steel: 303, 304, 316L, 17-4(SUS630) etc. | |
| 3) Steel: 4140, Q235, Q345B, 20#, 45# etc. | |
| 4) Titanium: TA1, TA2/GR2, TA4/GR5, TC4, TC18 etc. | |
| 5) Brass: C36000 (HPb62), C37700 (HPb59), C26800 (H68), C22000(H90) etc. | |
| 6) Copper, Bronze, Magnesium alloy, Delrin, POM, Acrylic, PC, etc. | |
| Finsh | Sandblasting, Anodize color, Blackenning, Zinc/Nickl Plating, Polish. |
| Power coating, Passivation PVD, Titanium Plating, Electrogalvanizing. | |
| Electroplating chromium, Electrophoresis, QPQ(Quench-Polish-Quench). | |
| Electro Polishing, Chrome Plating, Knurl, Laser etch Logo, etc. | |
| Main Equipment | CNC machining center(Milling), CNC Lathe, Grinding machine. |
| Cylindrical grinder machine, Drilling machine, Laser cutting machine, etc. | |
| Drawing format | STEP, STP, GIS, CAD, PDF, DWG, DXF etc or samples. |
| Tolerance | +/-0.01mm ~ +/-0.05mm |
| Surface roughness | Ra 0.1~3.2 |
| Inspection | Complete inspection lab with Micrometer, Optical Comparator, Caliper Vernier, CMM. |
| Depth Caliper Vernier, Universal Protractor, Clock Gauge, Internal Centigrade Gauge. | |
| Capacity | CNC turning work range: φ0.5mm-φ150mm*300mm. |
| CNC milling work range: 510mm*1571mm*500mm. |
About Runsom
Runsom, a company specializing in rapid prototyping and manufacturing, has decades of experience in
CNC machining, 3D printing, injection molding, sheet metal fabrication, and die casting. Our engineering
team with extensive knowledge and experience utilizes the latest prototyping technologies and top-notch
machining equipment to provide comprehensive services to satisfy global customers’ requirements,
timescales, and specific needs. We are able to take your concepts or designs to reality production in just
days with our advanced machining technologies, extensive manufacturing experience, and a wealth of
premium materials.
Our Mission
Runsom Precision was established to give support to companies in the industries fields who continually
need to reduce their costs and meet tight deadlines. Our purpose is to ensure customer satisfaction by
providing first-class project management control and problem-free products.
Get a Quote
Q1: What’s kinds of information you need for quote?
A1: Kindly please provide the 2D/3D drawings (PDF/DWG/DXF/IGS/STP/SLDPRT/etc) and advise material
, finish, quantity for quoting.
Q2: What is your MOQ?
A2: MOQ depends on our client’s needs, besides, we welcome trial order before mass-production.
Q3: What is the lead time?
A3: Depending on your specific project and quantity.
Q4: Available for customized design drawings?
A4: Yes, please send the technical drawings to us. It’s better if you can send both 2D and 3D drawings if
you have.
Q5: If the parts we purchase from your company are not good, what can we do?
A5: Please feel free to contact us after you got the products. Kindly send us some photos, we will
feedback to our engineers and QC departments and solve the problems ASAP.
Q6: Are you a manufacturer or trading company?
A6: We are a manufacturer, we are located in HangZhou, China.
Q7: Will my drawings be safe after sending to you?
A7: Yes, we will keep them well and not release to third party without your permission.
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| Application: | Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car |
|---|---|
| Hardness: | Hardened Tooth Surface |
| Gear Position: | External Gear |
| Manufacturing Method: | Cut Gear |
| Toothed Portion Shape: | Spur Gear |
| Material: | Carbon Steel, Aluminum, Stainless Steel |
| Samples: |
US$ 5/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
What is the lifespan of a typical bevel gear?
The lifespan of a typical bevel gear can vary depending on several factors, including the quality of the gear, the operating conditions, maintenance practices, and the specific application. Here’s a detailed explanation:
Bevel gears, like any mechanical component, have a finite lifespan. The lifespan of a bevel gear is influenced by the following factors:
- Quality of the Gear: The quality of the gear itself is a significant factor in determining its lifespan. Bevel gears manufactured using high-quality materials and precise manufacturing processes tend to have longer lifespans. Gears made from durable materials and manufactured with tight tolerances and accurate tooth profiles are more resistant to wear and fatigue, resulting in extended lifespans.
- Operating Conditions: The operating conditions under which the bevel gear operates greatly affect its lifespan. Factors such as torque levels, rotational speed, temperature, and shock loads can impact the wear and fatigue characteristics of the gear. Gears subjected to high torque, high-speed rotation, excessive heat, or frequent heavy loads may experience accelerated wear and reduced lifespan compared to gears operating under milder conditions.
- Maintenance Practices: Proper maintenance practices can significantly extend the lifespan of a bevel gear. Regular inspection, lubrication, and preventive maintenance help identify and address potential issues before they escalate. Adequate lubrication, cleanliness, and alignment contribute to reducing wear, minimizing the risk of damage, and prolonging the gear’s lifespan. Neglecting maintenance or improper maintenance practices can lead to premature wear, failure, and reduced lifespan.
- Application Specifics: The specific application in which the bevel gear is used plays a vital role in determining its lifespan. Different applications impose varying loads, speeds, and operating conditions on the gear. Gears used in heavy-duty industrial applications, such as mining or heavy machinery, may experience more significant wear and have shorter lifespans compared to gears used in lighter-duty applications.
- Load Distribution: Proper load distribution among the gear teeth is critical for ensuring longevity. Evenly distributed loads help prevent localized wear and ensure that no individual teeth are subjected to excessive stress. Factors such as gear design, tooth profile, and accurate alignment influence load distribution and can impact the gear’s lifespan.
Due to the complex interplay of these factors, it is challenging to provide a specific lifespan for a typical bevel gear. However, with proper design, high-quality manufacturing, suitable operating conditions, regular maintenance, and appropriate load distribution, bevel gears can have a lifespan ranging from several thousand to tens of thousands of operating hours.
It is important to note that monitoring the gear’s condition, including wear patterns, tooth damage, and any signs of failure, is crucial for ensuring safe and reliable operation. When signs of wear or damage become significant or when the gear no longer meets the required performance criteria, replacement or refurbishment should be considered to maintain the overall system’s integrity and performance.
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:
- 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:
- 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:
- Calculate the Efficiency: Divide the power output by the power input and multiply by 100% to obtain the efficiency:
Power input = Tin x ωin
Power output = Tout x ωout
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.
What are the applications of a bevel gear?
A bevel gear finds applications in various industries and mechanical systems where changes in direction or speed of rotational motion are required. Here’s a detailed explanation of the applications of a bevel gear:
- Automotive Industry: Bevel gears are widely used in the automotive industry, particularly in differentials. Differentials are responsible for distributing torque between the driving wheels of a vehicle, allowing them to rotate at different speeds when turning. Bevel gears in differentials transmit power from the engine to the wheels, enabling smooth cornering and improved traction.
- Mechanical Power Transmission: Bevel gears are employed in mechanical power transmission systems to change the direction of rotational motion. They are used in applications such as power tools, machine tools, conveyors, and printing presses. By meshing with other bevel gears or with spur gears, they transmit torque and power efficiently from one shaft to another, accommodating changes in direction and speed.
- Marine Propulsion Systems: Bevel gears are extensively used in marine propulsion systems, including boats and ships. They are commonly found in the propulsion shaft line, where they transmit torque from the engine to the propeller shaft, allowing the vessel to move through water. Bevel gears in marine applications are designed to withstand high loads, resist corrosion, and operate efficiently in harsh environments.
- Aerospace Industry: Bevel gears are utilized in various aerospace applications. They are employed in aircraft landing gear systems, where they transmit torque from the hydraulic motor to extend or retract the landing gear. Bevel gears are also found in helicopter rotor systems, providing the necessary power transmission to rotate the rotor blades.
- Railway Systems: Bevel gears play a crucial role in railway systems, particularly in locomotives and rolling stock. They are used in the transmission systems to transfer power from the engine to the wheels. Bevel gears ensure smooth and efficient power transfer, enabling the train to move forward or backward while negotiating curves on the track.
- Industrial Machinery: Bevel gears are extensively employed in various industrial machinery, such as milling machines, lathes, and industrial robots. They facilitate changes in direction and speed of rotational motion, enabling precise positioning, accurate cutting, and smooth operation of the machinery.
- Mining and Construction Equipment: Bevel gears are used in mining and construction equipment to transfer power and torque in heavy-duty applications. They are found in equipment such as excavators, bulldozers, and crushers, where they provide reliable power transmission in challenging environments.
These are just a few examples of the applications of bevel gears. Their ability to transmit power, change the direction of rotational motion, and accommodate intersecting shafts makes them versatile and suitable for a wide range of industries and mechanical systems.
In summary, bevel gears are extensively utilized in automotive differentials, mechanical power transmission systems, marine propulsion systems, aerospace applications, railway systems, industrial machinery, and mining and construction equipment. Their applications span across industries where changes in direction or speed of rotational motion are essential for efficient and reliable operation.
editor by CX 2024-03-29