Standard Pulley Sheave Multi-Groove Track Wheel Drive Belt 6 3D Model
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3D Model Details
| Vendor: | surf3d |
| Published: | Jan 01, 2026 |
| Download Size: | 41.4 MB |
| Game Ready: | – |
| Polygons: | 181,642 |
| Vertices: | 117,149 |
| Print Ready: | – |
| 3D Scan: | – |
| Textures: | – |
| Materials: | Yes |
| UV Mapped: | – |
| PBR: | – |
| Rigged: | – |
| Animated: | – |
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Standard Pulley Sheave Multi-Groove Track Wheel Drive Belt 6 3D Model
High-quality 3D assets at affordable prices — trusted by designers, engineers, and creators worldwide. Made with care to be versatile, accessible, and ready for your pipeline.
Included File Formats
This model is provided in 14 widely supported formats, ensuring maximum compatibility:
• - FBX (.fbx) – Standard format for most 3D software and pipelines
• - OBJ + MTL (.obj, .mtl) – Wavefront format, widely used and compatible
• - STL (.stl) – Exported mesh geometry; may be suitable for 3D printing with adjustments
• - STEP (.step, .stp) – CAD format using NURBS surfaces
• - IGES (.iges, .igs) – Common format for CAD/CAM and engineering workflows (NURBS)
• - SAT (.sat) – ACIS solid model format (NURBS)
• - DAE (.dae) – Collada format for 3D applications and animations
• - glTF (.glb) – Modern, lightweight format for web, AR, and real-time engines
• - 3DS (.3ds) – Legacy format with broad software support
• - 3ds Max (.max) – Provided for 3ds Max users
• - Blender (.blend) – Provided for Blender users
• - SketchUp (.skp) – Compatible with all SketchUp versions
• - AutoCAD (.dwg) – Suitable for technical and architectural workflows
• - Rhino (.3dm) – Provided for Rhino users
Model Info
• - All files are checked and tested for integrity and correct content
• - Geometry uses real-world scale; model resolution varies depending on the product (high or low poly)
• • - Scene setup and mesh structure may vary depending on model complexity
• - Rendered using Luxion KeyShot
• - Affordable price with professional detailing
Buy with confidence. Quality and compatibility guaranteed.
If you have any questions about the file formats, feel free to send us a message — we're happy to assist you!
Sincerely,
SURF3D
Trusted source for professional and affordable 3D models.
More Information About 3D Model :
The component aggregation described by the title "STANDARD PULLEY SHEAVE MULTI GROOVE TRACK WHEEL DRIVE BELT GEAR" collectively defines a specialized element or system critical to mechanical power transmission, typically involving the controlled transfer of torque and rotary motion via flexible coupling elements such as belts or cables. This system is foundational in numerous industrial and automotive applications where efficient, predictable, and robust power delivery is required, often replacing traditional gear systems due to advantages in noise reduction, vibration damping, and cost-effectiveness.
### Nomenclature and Differentiation
While the terms "pulley," "sheave," and "track wheel" are often used interchangeably in general engineering parlance, they possess specific definitions relevant to their application context:
1. **Pulley (Standard):** A wheel fixed to a rotating axle, primarily designed for power transmission via frictional engagement with a drive belt (e.g., V-belts or flat belts). Standard pulleys adhere to established dimensional standards (e.g., ISO, DIN, ANSI) ensuring interchangeability and predictable performance metrics such as speed ratio and tension requirements.
2. **Sheave:** Traditionally refers to a wheel or roller with a grooved circumference, used specifically to guide or carry rope, wire cable, or synthetic cord, often found in lifting mechanisms, hoists, and block and tackle systems.
3. **Track Wheel:** A generic functional descriptor emphasizing the wheel's purpose to guide or maintain alignment along a specified path or track, ensuring the integrity of the power coupling system.
The core defining feature is the **Multi-Groove** configuration. This design incorporates several parallel grooves machined into the circumference of the component. This multiplicity serves several critical engineering purposes: distributing the load across multiple contact surfaces, significantly increasing the effective power transmission capacity, reducing the stress on individual belts, and mitigating the effects of slippage compared to single-groove systems.
### Functional Principle and Drive Belt Gear System
The "Drive Belt Gear" phrase refers to the functional mechanism where the grooved wheel acts as the gear element, translating rotational input into the tensile force required to move a drive belt, thereby transmitting torque to a driven shaft.
Multi-groove sheaves are primarily employed in two types of belt drive systems:
1. **Classical and Narrow V-Belt Systems:** The grooves are trapezoidal, designed to force the sides of the belt to wedge into the groove walls under tension. A multi-groove assembly accommodates an equal number of individual V-belts (or linked V-belts), distributing the high loads required in heavy industrial machinery.
2. **Poly-V or Multi-Ribbed Belt Systems:** These systems use a single, wide belt featuring multiple longitudinal ribs that seat perfectly into the corresponding multi-groove sheave. This system offers higher flexibility, better stress distribution, and compactness while maintaining high frictional grip and minimizing vibration.
### Design Parameters and Geometry
The geometry of the grooves is meticulously standardized to ensure compatibility with specific belt profiles (e.g., 3V, 5V, 8V, J, L, M sections). Key design parameters include:
* **Pitch Diameter ($D_p$):** The theoretical diameter at which the belt tensile cords ride, determining the exact speed ratio.
* **Groove Angle ($\alpha$):** The angle of the groove walls, crucial for generating the necessary wedging action in V-belt applications.
* **Balancing:** High-speed multi-groove sheaves must be dynamically balanced to prevent excessive vibration and premature bearing wear.
Materials selection depends on speed, load, and environmental factors. Common materials include cast iron (for high strength and damping), ductile iron, aluminum (for low weight and high speeds), and high-tensile steel.
### Applications
Multi-groove pulley systems are essential wherever reliable, high-power synchronous or non-synchronous rotary motion transfer is required, including:
* **Industrial Machinery:** Pumps, compressors, blowers, crushers, and large HVAC units.
* **Automotive Systems:** Alternator drives, power steering pumps, and air conditioning compressors, often utilizing multi-ribbed belt systems.
* **Agricultural Equipment:** High-load traction and transmission systems in heavy machinery.
The use of a multi-groove configuration ensures redundancy, high torque capacity, and reduced component stress, validating its role as a robust standard for demanding drive belt transmission mechanisms.
KEYWORDS: Pulley, Sheave, Multi-Groove, V-Belt, Poly-V Belt, Power Transmission, Mechanical Drive, Torque Transfer, Track Wheel, Standardized Component, Drive System, Synchronous Drive, Frictional Drive, Belt Tension, Pitch Diameter, Grooved Wheel, Cast Iron, Dynamic Balancing, Industrial Machinery, Automotive Component, Load Distribution, Mechanical Engineering, High Capacity, Belt Slip, Groove Geometry, Sheave Manufacturing, Belt Drive Gear, Speed Ratio, Bearing Load, Rotary Motion
Included File Formats
This model is provided in 14 widely supported formats, ensuring maximum compatibility:
• - FBX (.fbx) – Standard format for most 3D software and pipelines
• - OBJ + MTL (.obj, .mtl) – Wavefront format, widely used and compatible
• - STL (.stl) – Exported mesh geometry; may be suitable for 3D printing with adjustments
• - STEP (.step, .stp) – CAD format using NURBS surfaces
• - IGES (.iges, .igs) – Common format for CAD/CAM and engineering workflows (NURBS)
• - SAT (.sat) – ACIS solid model format (NURBS)
• - DAE (.dae) – Collada format for 3D applications and animations
• - glTF (.glb) – Modern, lightweight format for web, AR, and real-time engines
• - 3DS (.3ds) – Legacy format with broad software support
• - 3ds Max (.max) – Provided for 3ds Max users
• - Blender (.blend) – Provided for Blender users
• - SketchUp (.skp) – Compatible with all SketchUp versions
• - AutoCAD (.dwg) – Suitable for technical and architectural workflows
• - Rhino (.3dm) – Provided for Rhino users
Model Info
• - All files are checked and tested for integrity and correct content
• - Geometry uses real-world scale; model resolution varies depending on the product (high or low poly)
• • - Scene setup and mesh structure may vary depending on model complexity
• - Rendered using Luxion KeyShot
• - Affordable price with professional detailing
Buy with confidence. Quality and compatibility guaranteed.
If you have any questions about the file formats, feel free to send us a message — we're happy to assist you!
Sincerely,
SURF3D
Trusted source for professional and affordable 3D models.
More Information About 3D Model :
The component aggregation described by the title "STANDARD PULLEY SHEAVE MULTI GROOVE TRACK WHEEL DRIVE BELT GEAR" collectively defines a specialized element or system critical to mechanical power transmission, typically involving the controlled transfer of torque and rotary motion via flexible coupling elements such as belts or cables. This system is foundational in numerous industrial and automotive applications where efficient, predictable, and robust power delivery is required, often replacing traditional gear systems due to advantages in noise reduction, vibration damping, and cost-effectiveness.
### Nomenclature and Differentiation
While the terms "pulley," "sheave," and "track wheel" are often used interchangeably in general engineering parlance, they possess specific definitions relevant to their application context:
1. **Pulley (Standard):** A wheel fixed to a rotating axle, primarily designed for power transmission via frictional engagement with a drive belt (e.g., V-belts or flat belts). Standard pulleys adhere to established dimensional standards (e.g., ISO, DIN, ANSI) ensuring interchangeability and predictable performance metrics such as speed ratio and tension requirements.
2. **Sheave:** Traditionally refers to a wheel or roller with a grooved circumference, used specifically to guide or carry rope, wire cable, or synthetic cord, often found in lifting mechanisms, hoists, and block and tackle systems.
3. **Track Wheel:** A generic functional descriptor emphasizing the wheel's purpose to guide or maintain alignment along a specified path or track, ensuring the integrity of the power coupling system.
The core defining feature is the **Multi-Groove** configuration. This design incorporates several parallel grooves machined into the circumference of the component. This multiplicity serves several critical engineering purposes: distributing the load across multiple contact surfaces, significantly increasing the effective power transmission capacity, reducing the stress on individual belts, and mitigating the effects of slippage compared to single-groove systems.
### Functional Principle and Drive Belt Gear System
The "Drive Belt Gear" phrase refers to the functional mechanism where the grooved wheel acts as the gear element, translating rotational input into the tensile force required to move a drive belt, thereby transmitting torque to a driven shaft.
Multi-groove sheaves are primarily employed in two types of belt drive systems:
1. **Classical and Narrow V-Belt Systems:** The grooves are trapezoidal, designed to force the sides of the belt to wedge into the groove walls under tension. A multi-groove assembly accommodates an equal number of individual V-belts (or linked V-belts), distributing the high loads required in heavy industrial machinery.
2. **Poly-V or Multi-Ribbed Belt Systems:** These systems use a single, wide belt featuring multiple longitudinal ribs that seat perfectly into the corresponding multi-groove sheave. This system offers higher flexibility, better stress distribution, and compactness while maintaining high frictional grip and minimizing vibration.
### Design Parameters and Geometry
The geometry of the grooves is meticulously standardized to ensure compatibility with specific belt profiles (e.g., 3V, 5V, 8V, J, L, M sections). Key design parameters include:
* **Pitch Diameter ($D_p$):** The theoretical diameter at which the belt tensile cords ride, determining the exact speed ratio.
* **Groove Angle ($\alpha$):** The angle of the groove walls, crucial for generating the necessary wedging action in V-belt applications.
* **Balancing:** High-speed multi-groove sheaves must be dynamically balanced to prevent excessive vibration and premature bearing wear.
Materials selection depends on speed, load, and environmental factors. Common materials include cast iron (for high strength and damping), ductile iron, aluminum (for low weight and high speeds), and high-tensile steel.
### Applications
Multi-groove pulley systems are essential wherever reliable, high-power synchronous or non-synchronous rotary motion transfer is required, including:
* **Industrial Machinery:** Pumps, compressors, blowers, crushers, and large HVAC units.
* **Automotive Systems:** Alternator drives, power steering pumps, and air conditioning compressors, often utilizing multi-ribbed belt systems.
* **Agricultural Equipment:** High-load traction and transmission systems in heavy machinery.
The use of a multi-groove configuration ensures redundancy, high torque capacity, and reduced component stress, validating its role as a robust standard for demanding drive belt transmission mechanisms.
KEYWORDS: Pulley, Sheave, Multi-Groove, V-Belt, Poly-V Belt, Power Transmission, Mechanical Drive, Torque Transfer, Track Wheel, Standardized Component, Drive System, Synchronous Drive, Frictional Drive, Belt Tension, Pitch Diameter, Grooved Wheel, Cast Iron, Dynamic Balancing, Industrial Machinery, Automotive Component, Load Distribution, Mechanical Engineering, High Capacity, Belt Slip, Groove Geometry, Sheave Manufacturing, Belt Drive Gear, Speed Ratio, Bearing Load, Rotary Motion
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