China Hot selling Drawing Manufacture Parallel Single Helical Gear Spline Shaft in Gear Pinion Transmission hypoid bevel gear

Product Description

Product Description

Our Capabilities of Manufacturing Gears & Splines.

  Hobbing Milling Tooth Grinding
Max O.D. 1250mm 2000mm 2000mm
Min I.D. 20mm 50mm 20mm
Max Face Width 500mm 500mm 1480mm
Max DP DP 1 DP 1 DP 0.5
Max Module 26mm 26mm 45mm
DIN Level DIN Class 6 DIN Class 6 DIN Class 4
Tooth Finish Ra 3.2 Ra 3.2 Ra 0.6
Max Helix Angle ±45° ±45° ±45°

Precision Transmission Parts

Custom CNC Machining Parts Service

Quotation

According to your drawing(size, material,and required technology, etc)

Materials

Aluminum, Copper, Brass, Stainless Steel, Steel, Iron, Alloy,  Titanium etc.

Surface Treatment

Anodizing, Brushing, Galvanized, laser engraving, Silk printing, polishing, Powder coating, etc.

Tolerance

+/- 0.005mm-0.01mm, 100% QC quality inspection before delivery, can provide quality inspection form

Processing

CNC Turning, Milling, Drilling, Hobbing, Polishing, Bushing, Surface Treatment etc.

Drawing Formats

Solid Works, Pro/Engineer, UG, AutoCAD(DXF, DWG), PDF, TIF etc.

 

5-axis CNC Milling Parts

Material Available

Aluminum

Stainless Steel

Brass

Copper

Iron

Plastic

AL6061

SS201

C35600

C11000

20#

POM

AL6063

SS301

C36000

C12000

45#

Peek

AL6082

SS303

C37700

C12200

Q235

PMMA

AL7075

SS304

C37000

C15710

Q345B

ABS

AL2571

SS316

C37100

etc…

Q345B

Delrin

AL5052

SS416

C28000

 

1214/1215

Nylon

ALA380

etc…

C26000

 

12L14

PVC

etc…

 

C24000

 

Carbon steel

PP

 

 

C22000

 

4140 / 4130

PC

 

 

etc…

 

etc…

etc…

Surface Treatment

Material Available

As machined

All metals

Smoothed

All metals and Plastic (e.g aluminum, steel,nylon, ABS)

Powder Coated

All metals ( e.g aluminum, steel)

Brushing

All metals (e.g aluminum, steel)

Anodized Hardcoat

Aluminum and Titanium alloys

Electropolished

Metal and plastic (e.g aluminum, ABS)

Bead Blasted

Aluminum and Titanium alloys

Anodized Clear or Color

Aluminum and Titanium alloys

Application Field

 

Company Profile

HangZhou CZPT Intelligent Technology Co. Ltd was established in 2003. Since established, we always focus on precision transmission and mechanical parts manufacturing & processing. We have a professional R&D team and advanced gear hobbing machine, gear grinding machine, gear shaping machine, CNC Lathe machines and milling machines, which can give comprehensive solutions according to user’s requirements, from the design. 

we bulid us through help others succes. CZPT always focuses on the development ability, and now, it owns more than 30 patents. Our company has several advanced engineering design softwares and applied more than 20 new technologies and new processes. And also, it is certified by ISO 9001: 2015 and ISO 14001: 2015.

For more than 10 years, our company has been committed to the production and processing of precision parts and non-standard automation design. With a highly qualified workforce, relying on rich experience in precision processing and international leading equipment, the company has established strategic partnerships with world-renowned enterprises in the fields of aviation, medical and industrial precision test and measurement equipment.

FAQ

Q1: How to get a quotation?

A1: Please send us drawings in igs, dwg, step etc. together with detailed PDF.If you have any requirements, please note,
and we could provide professional advice for your reference.

 

Q2: How long can i get the sample?

A2: Depends on your specific items,within 7-10 days is required generally.

 

Q3: How to enjoy the OEM services?

A3: Usually, base on your design drawings or original samples, we give some technical proposals and a quotation to you, after your agreement, we produce for you.

 

Q4: Will my drawings be safe after sending to you?

A4: Yes, we will keep them well and not release to third party without your permission. Of course, we would ensure the safety of the drawing.

 

Q5: What shall we do if we do not have drawings?

A5: Please send your sample to our factory,then we can copy or provide you better solutions. Please send us pictures or drafts with dimensions(Length,Hight,Width), CAD or 3D file will be made for you if placed order.

Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Agricultural Machinery, Car, Industrial Machine
Hardness: Hardened Tooth Surface
Gear Position: External Gear
Manufacturing Method: Rolling Gear
Toothed Portion Shape: Spur Gear
Material: Stainless Steel
Samples:
US$ 500/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

gear shaft

How do gear shafts handle changes in rotational direction and torque distribution?

Gear shafts play a crucial role in handling changes in rotational direction and torque distribution in machinery and mechanical systems. Let’s explore how gear shafts accomplish these tasks:

  • Rotational Direction Changes:

Gear shafts are designed with gears that have different tooth profiles, sizes, and configurations. By meshing gears with varying characteristics, gear shafts can transmit rotational motion and change the direction of rotation. For example, when a gear with clockwise rotation meshes with a gear with counterclockwise rotation, the gear shaft can transfer the rotational motion and change the direction of output rotation accordingly.

  • Torque Distribution:

Gear shafts are also responsible for distributing torque within a mechanical system. Torque is the rotational force applied to the gear shaft, and it needs to be transmitted and distributed to other components or gears in the system. Gear shafts achieve torque distribution through the engagement of multiple gears along the shaft. As torque is applied to the input gear, it transfers through the gear teeth and along the gear shaft, evenly distributing the torque to the output gears. The size, number of teeth, and gear ratios of the gears on the shaft determine the torque distribution characteristics.

  • Gear Ratios:

Gear shafts can handle changes in torque distribution by utilizing different gear ratios. The gear ratio is the ratio of the number of teeth between two meshing gears. By using gears with different numbers of teeth, gear shafts can alter the torque distribution between the input and output gears. For example, gearing systems with larger input gears and smaller output gears can amplify torque, while systems with smaller input gears and larger output gears can reduce torque while increasing speed.

  • Compound Gear Systems:

In more complex systems, gear shafts may incorporate compound gear arrangements to handle changes in both rotational direction and torque distribution. Compound gears consist of multiple gears mounted on the same shaft, allowing for a combination of gear ratios and rotational direction changes. These arrangements enable gear shafts to accommodate intricate mechanical systems with varying torque and rotational requirements.

Overall, gear shafts handle changes in rotational direction and torque distribution by utilizing different gear configurations, gear ratios, and compound gear systems. Their ability to transmit and distribute rotational motion and torque makes them essential components in machinery and mechanical systems.

gear shaft

What is the significance of gear shaft alignment in mechanical systems?

Gear shaft alignment holds great significance in mechanical systems where gears are employed. Proper alignment of gear shafts is crucial for ensuring optimal performance and longevity of the system. Let’s explore the significance of gear shaft alignment:

  • Efficient Power Transmission:

Accurate alignment of gear shafts facilitates efficient power transmission within the mechanical system. When gear shafts are properly aligned, the gear teeth mesh smoothly and engage without unnecessary friction or resistance. This minimizes power losses due to misalignment, reducing energy wastage and maximizing power transfer efficiency. Efficient power transmission ensures that the mechanical system operates at its intended performance level.

  • Reduced Wear and Damage:

Proper gear shaft alignment helps in reducing wear and damage to the gears and other components within the mechanical system. Misalignment can cause excessive stress on the gear teeth, resulting in accelerated wear and premature failure. By aligning the gear shafts correctly, the load is evenly distributed, preventing concentrated stress points. This leads to reduced wear, improved gear life, and decreased chances of unexpected breakdowns or malfunctions.

  • Noise and Vibration Reduction:

Misalignment of gear shafts can lead to increased noise and vibration levels within the mechanical system. When gears are not properly aligned, they may generate excessive vibration and noise during operation. This can be detrimental to the overall performance and user experience. Proper gear shaft alignment ensures that the gears mesh accurately, reducing vibration and noise. It contributes to a quieter and smoother operation of the mechanical system.

  • Optimal Load Distribution:

Alignment of gear shafts enables optimal load distribution among the gears. When gear shafts are aligned correctly, the load is evenly shared across the gear teeth and their supporting components. This prevents overloading of specific gears, minimizing the risk of premature wear or failure. Proper load distribution enhances the overall reliability and efficiency of the mechanical system, as each gear operates within its intended design parameters.

  • Improved Efficiency:

Gear shaft alignment directly impacts the overall efficiency of the mechanical system. Proper alignment reduces energy losses due to friction, misalignment, or inefficient gear engagement. It allows for smooth and efficient power transmission throughout the system, optimizing the utilization of available energy. Improved efficiency translates into reduced operating costs, increased productivity, and enhanced performance of the mechanical system.

  • Longer Service Life:

Correct gear shaft alignment contributes to a longer service life for the mechanical system. By minimizing wear, reducing stress concentrations, and preventing excessive vibration, proper alignment helps to preserve the integrity of the gears and other related components. This leads to extended service intervals, reduced maintenance requirements, and increased reliability. A mechanical system with aligned gear shafts is more likely to operate smoothly and consistently over an extended period.

In summary, gear shaft alignment is of significant importance in mechanical systems. It ensures efficient power transmission, reduces wear and damage, minimizes noise and vibration, enables optimal load distribution, improves overall efficiency, and extends the service life of the system. Proper alignment of gear shafts is essential for achieving reliable and high-performance operation in gear-based mechanical systems.

gear shaft

How do gear shafts differ from other components in gear mechanisms?

Gear shafts have distinct characteristics that differentiate them from other components in gear mechanisms. Here are some key differences between gear shafts and other components:

  • Function:

Gear shafts serve as the mechanical linkages that connect and transmit rotational motion between gears. Their primary function is to transfer power and torque from one gear to another, enabling the desired mechanical output. Other components in gear mechanisms, such as gears themselves, may have different functions, such as meshing with other gears, providing different gear ratios, or changing the direction of motion.

  • Structure and Design:

Gear shafts typically have a cylindrical or rod-like structure with a smooth surface. They are designed to provide support, alignment, and rotational movement for the connected gears. In contrast, other components, such as gears, may have complex tooth profiles, specific shapes, or specialized features to achieve their intended functions, such as transmitting motion, altering speed, or multiplying torque.

  • Location and Mounting:

Gear shafts are often positioned centrally within gear mechanisms and are mounted on bearings or bushings. This central location allows them to connect with multiple gears and efficiently transmit power. Other components, such as gears, may be positioned at different locations within the mechanism, depending on their specific roles and interactions with other gears.

  • Rotational Movement:

Gear shafts primarily rotate within the gear mechanism, transmitting the rotational motion from one gear to another. They are designed to withstand the torque and rotational forces applied during operation. In contrast, other components, such as gears, may have different types of movement or interactions, such as meshing with other gears, sliding, or engaging and disengaging with additional mechanisms or clutches.

  • Size and Dimension:

Gear shafts can vary in size and dimension depending on the specific application and gear mechanism requirements. They need to be designed to handle the load, torque, and speed demands of the system. Other components, such as gears, may also come in various sizes, but their shape, tooth profiles, and dimensions are tailored to achieve specific gear ratios, rotational speeds, or torque multiplication.

  • Material Selection:

Gear shafts are commonly made from strong and durable materials, such as steel or alloy metals, to withstand the forces and stresses encountered during operation. The material selection for gear shafts prioritizes strength, wear resistance, and fatigue resistance. Other components, such as gears, may have different material requirements based on their specific functions, such as hardness, friction properties, or heat dissipation.

In summary, gear shafts differ from other components in gear mechanisms in terms of their function, structure, location, movement, size, and material selection. Gear shafts primarily serve to transmit power and torque between gears, providing support, alignment, and rotational movement. Understanding these differences is crucial for designing and assembling efficient and reliable gear mechanisms.

China Hot selling Drawing Manufacture Parallel Single Helical Gear Spline Shaft in Gear Pinion Transmission hypoid bevel gearChina Hot selling Drawing Manufacture Parallel Single Helical Gear Spline Shaft in Gear Pinion Transmission hypoid bevel gear
editor by CX 2023-09-12