Product Description

Key attributes

Other attributes

Applicable Industries

Energy & Mining

 

Weight (KG)

750

 

After Warranty Service

Video technical support, Online support

 

Local Service Location

None

 

Showroom Location

None

 

Video outgoing-inspection

Provided

 

Machinery Test Report

Provided

 

Marketing Type

Hot Product 2571

 

Warranty of core components

1 Year

 

Core Components

worm gear

Heavy transmission gear box custom casting drive large worm gear and shaft

Place of CHINAMFG

ZheJiang , China

 

Condition

New

 

Warranty

12Months

 

Shape

Worm

 

Brand Name

TS

 

Material

copper

 

Standard or Nonstandard

Nonstandard

 

Direction

OEM

 

Product name

custom casting drive large worm gear and shaft

 

Application

Heavy gear box

 

Quality

High Quailty

 

Tolerance

0.01mm

 

Diameter

Min:200mm

 

Color

OEM

 

Heat treatment

OEM

 

MOQ

1 Piece

 

Standard

ISO

 

Material

Copper

 

OUR WORKSHOPS

 

OUR EQUIPMENTS
Technology Process

Material

Carbon steel,Alloy steel

Structure

Forging,casting

Type of gear

spur gear,helical gear,Planetary Gear

Heat treatment

Quenching and tempering

Process 

forging, rough machining, QT, finish machining

Main equipments

hobbing,CNC machine

Module

up to 200

Precision of gear

Grinding ISO Grade 5-7 & Hobbing ISO Grade 8-9

Inspection

Raw material inspection, UT,physical property test,dimension inspect

Application

Mining machinery, mill, kiln and other equipment

OUR CERTIFICATE
OUR CUSTOMER FEEDBACK
CONTACT 

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Application: Industry
Hardness: Hb190-Hb300
Gear Position: External Gear
Samples:
US$ 100/Piece
1 Piece(Min.Order)

|

Order Sample

Customization:
Available

|

Customized Request

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



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

spur gear rack

How does the design of a spur gear rack affect its performance?

The design of a spur gear rack plays a crucial role in determining its performance characteristics and overall functionality. Various design elements and parameters influence the performance of a spur gear rack. Here’s how the design aspects affect its performance:

  • Tooth Profile: The tooth profile of the spur gear rack, such as involute or cycloidal, directly impacts its performance. The tooth profile affects the smoothness of tooth engagement, the load distribution along the tooth contact area, and the amount of backlash or clearance between mating gears. A well-designed tooth profile ensures efficient power transmission, minimizes noise and vibration, and maximizes the contact area for improved load-carrying capacity.
  • Pitch: The pitch of the spur gear rack refers to the distance between consecutive teeth. The pitch determines the linear motion achieved per revolution of the mating pinion gear. The design of the rack should consider the specific requirements of the application. A smaller pitch provides finer and more precise linear motion, while a larger pitch allows for faster linear motion over a given distance. The pitch selection affects the speed, accuracy, and resolution of the linear motion system.
  • Pressure Angle: The pressure angle is the angle between the line of action and the line perpendicular to the tooth surface. It affects the efficiency, load distribution, and contact strength of the gear system. Common pressure angles for spur gear racks are 14.5 degrees and 20 degrees. Higher pressure angles generally offer higher load-carrying capacity and improved contact strength. The appropriate pressure angle selection depends on the specific application requirements and the desired balance between load capacity and efficiency.
  • Module: The module of a spur gear rack defines the size and dimensions of the teeth. It affects the strength, load-carrying capacity, and overall size of the gear. A larger module generally results in larger teeth and a more robust gear rack capable of handling higher loads. However, it also increases the size and weight of the gear. The module selection should consider the application’s torque requirements, available space, and weight constraints to achieve an optimal balance between strength and size.
  • Material: The choice of material for the spur gear rack impacts its performance and durability. Common materials used include steel, stainless steel, cast iron, and various alloys. The material selection depends on factors such as load capacity, operating conditions, and desired properties like strength, wear resistance, and corrosion resistance. The material should be carefully chosen to ensure sufficient strength and durability while considering environmental factors, temperature variations, and the presence of any corrosive substances.
  • Surface Finish: The surface finish of the spur gear rack affects its performance in terms of friction, wear resistance, and noise generation. Proper surface finishing techniques, such as grinding or honing, can improve the tooth surface quality, reduce friction, and minimize noise. A smooth and properly finished tooth surface enhances the efficiency, reduces power losses, and increases the overall performance of the gear rack system.
  • Tolerance and Accuracy: The design of the spur gear rack should consider the required tolerances and accuracy for the specific application. Precise manufacturing and tight tolerances ensure proper tooth engagement, minimize backlash, and maintain accurate linear motion. The design should account for factors such as tooth profile accuracy, concentricity, and parallelism to achieve the desired performance characteristics.
  • Geometry and Strength: The overall geometry and strength of the spur gear rack affect its load-carrying capacity and resistance to tooth failure. The gear rack’s geometry, including tooth thickness, height, and width, should be designed to distribute the load evenly along the tooth contact area. Proper tooth geometry improves the gear’s ability to withstand high loads, reduces stress concentrations, and enhances its overall performance and longevity.

By carefully considering these design aspects, a spur gear rack can be optimized to meet the specific performance requirements of different applications. A well-designed gear rack ensures efficient power transmission, smooth operation, accurate linear motion, and reliable performance throughout its intended service life.

spur gear rack

Can spur gear racks be integrated into renewable energy systems?

Yes, spur gear racks can be successfully integrated into renewable energy systems to enhance their performance and functionality. The versatility, efficiency, and precise control offered by spur gear racks make them suitable for various applications within renewable energy generation and storage. Here’s a detailed explanation of how spur gear racks can be integrated into renewable energy systems:

  • Wind Turbines: Spur gear racks are commonly used in the pitch control mechanism of wind turbines. The pitch control system adjusts the angle of the turbine blades to optimize power generation based on wind conditions. Gear racks, along with pinion gears and actuators, enable precise and synchronized blade adjustment, ensuring efficient wind capture and power output. The robustness of spur gear racks allows them to handle the high loads and harsh operating conditions experienced in wind turbine applications.
  • Solar Tracking Systems: In solar energy systems, spur gear racks can be employed in solar tracking systems. These systems orient solar panels to track the movement of the sun throughout the day, maximizing solar energy absorption. Gear racks, combined with motors or actuators, enable accurate and controlled movement of the solar panels, ensuring optimal exposure to sunlight. Spur gear racks contribute to efficient solar tracking and improved energy generation in solar power installations.
  • Hydropower Systems: Spur gear racks are utilized in various components of hydropower systems, such as sluice gates or turbine control mechanisms. Gear racks enable precise and reliable linear motion control, facilitating the opening and closing of gates or regulating the flow of water through turbines. By integrating gear racks, hydropower systems can efficiently harness the power of flowing water, contributing to renewable energy generation.
  • Energy Storage Systems: Spur gear racks can be part of energy storage systems, such as pumped hydro storage or compressed air energy storage. These systems store excess energy generated from renewable sources for later use. Gear racks, along with motors or actuators, can control the movement of gates, valves, or pistons in these storage systems, enabling precise control over the charging and discharging processes. Spur gear racks ensure efficient energy storage and retrieval, enhancing the overall performance of renewable energy systems.
  • Tidal and Wave Energy Converters: Spur gear racks can be integrated into tidal and wave energy converter systems. These systems harness the power of tides or waves to generate electricity. Gear racks, along with pinion gears and actuators, enable the precise adjustment and control of mechanical components, such as turbine blades or oscillating bodies, optimizing energy capture from tidal or wave movements. Spur gear racks contribute to efficient energy conversion in these renewable energy systems.

Overall, spur gear racks offer valuable benefits when integrated into renewable energy systems. Their ability to provide precise motion control, withstand high loads, and operate in harsh environments makes them suitable for applications in wind turbines, solar tracking systems, hydropower systems, energy storage systems, tidal and wave energy converters, and more. By incorporating spur gear racks, renewable energy systems can achieve improved efficiency, reliability, and performance in generating and utilizing renewable energy sources.

spur gear rack

Can you explain the purpose and applications of spur gear racks in machinery?

Spur gear racks serve various purposes and find widespread applications in machinery across different industries. They are commonly used for the conversion of rotational motion into linear motion or vice versa. Here are some key purposes and applications of spur gear racks:

Motion Conversion: One of the primary purposes of spur gear racks is to convert rotational motion into linear motion. By meshing with a pinion gear, the teeth on the rack translate the rotational movement of the pinion into a linear movement along the length of the rack. This linear motion can be utilized to drive various mechanisms and components in machinery.

Positioning and Precision: Spur gear racks are often employed for precise positioning tasks in machinery. The linear motion provided by the rack allows for accurate movement and positioning of components, tools, or workpieces. This is particularly useful in applications such as CNC machines, where precise positioning is critical for machining operations.

Power Transmission: Spur gear racks are used to transmit power between different components in machinery. By incorporating a pinion gear that meshes with the rack, rotational motion can be transferred from one part of the machinery to another. This enables the transmission of power to drive various mechanisms, such as conveyors, lifts, or other linear motion systems.

Steering Systems: Spur gear racks play a crucial role in rack and pinion steering systems, commonly used in automobiles and other vehicles. The rotational motion of the steering wheel is converted into linear motion through the interaction between the pinion gear and the rack. This allows for precise control of the vehicle’s steering, enabling the driver to navigate and maneuver the vehicle.

Linear Actuators: Spur gear racks are utilized in linear actuator systems to generate linear motion for pushing, pulling, or positioning loads. The rack and pinion configuration provides a simple and efficient method for converting rotational motion into linear motion. Linear actuators employing spur gear racks are used in various applications, including robotics, industrial automation, and machinery positioning systems.

Machine Tools: In machine tools such as milling machines, lathes, and drilling machines, spur gear racks are employed for precise movement and positioning of cutting tools or workpieces. The linear motion provided by the rack enables controlled and accurate machining operations, contributing to the overall performance and quality of the machined parts.

Automation and Robotics: Spur gear racks are widely used in automation and robotics systems. They facilitate linear motion for the movement of robotic arms, conveyors, and other automated mechanisms. The precise and controlled motion offered by spur gear racks is instrumental in achieving accurate and repeatable operations in automated processes.

Industrial Machinery: Spur gear racks find applications in various industrial machinery, including packaging machines, printing presses, textile machinery, material handling systems, and more. They contribute to the efficient and reliable operation of these machines by providing linear motion, power transmission, and precise positioning capabilities.

Overall, spur gear racks play a vital role in machinery, enabling linear motion, precise positioning, power transmission, and automation. Their versatility and reliability make them a fundamental component in numerous applications across diverse industries.

China manufacturer OEM Alloy Steel Forging High Quality Large Module Gear Rack Spur Big Gear Rack top gearChina manufacturer OEM Alloy Steel Forging High Quality Large Module Gear Rack Spur Big Gear Rack top gear
editor by Dream 2024-04-30

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