Futura Automation, LLC is a solutions provider for automation conveying and robotic systems. With today’s newsletter, we are pleased to provide an in-depth overview of the 10 most important types of automation conveyor systems, excluding screw, pneumatic, overhead, and magnetic conveyors, along with their key industrial applications.
There are a wide variety of material handling systems, including mobile machines like AMRs, and so it is impossible to distill to only 10, let alone four or five. We will focus on each group of automation conveyors in uFutura Automation, LLC is a solutions provider for automation conveying and robotic systems. With today’s newsletter, we are pleased to provide an in-depth overview of the 10 most important types of automation conveyor systems, excluding screw, pneumatic, overhead, and magnetic conveyors, along with their key industrial applications.
There are a wide variety of material handling systems, including mobile machines like AMRs, and so it is impossible to distill to only 10, let alone four or five. We will focus on each group of automation conveyors in upcoming issues of “Simple Solutions for Automation”. If you would like more information on any of these systems, or others we can offer, please send us an email at tech@futura-automation.com
Introduction to Conveyor Systems in Automation
Automated conveyor systems are foundational to material handling in manufacturing, distribution, and logistics. They improve efficiency, reduce human labor, and ensure consistent throughput. This document outlines the 10 most essential conveyor system types that drive automation in modern industries. These exclude pneumatic, screw, overhead, and magnetic conveyors to focus on broader mechanical systems used in manufacturing automation.
1. Belt Conveyor Systems
Overview
Belt conveyors are the most widely used conveyor systems in automated environments. They consist of a continuous loop of material (the belt) driven by pulleys and rollers. One example is solid urethane belt conveyors are used in a wide variety of applications to meet a range of food-processing needs, including those in snack; fruit and vegetable; and meat, poultry, and seafood processing.
Construction and Function
Flat or troughed belts supported by rollers or a metal bed.
Drive pulley powered by an electric motor.
Can include tracking devices, variable speed drives, sensors, and PLC controls.
Applications
Packaging lines: Transporting consumer goods for labeling, sealing, and packing.
Warehousing: Moving cartons and parcels in fulfillment centers (e.g., Amazon).
Food processing: FDA-compliant belts transport food between preparation stages.
Pharmaceutical: Controlled environments use belt conveyors for capsule bottling.
Advantages
Smooth, continuous movement.
Adaptable to curves, inclines, and declines.
Easy to integrate with vision systems, pick-and-place robots, or scanning devices.
2. Roller Conveyor Systems
Overview
Roller conveyors use a series of rollers supported in a frame to move items by gravity or motorized drive.
Types
Gravity rollers: Unpowered, used for low-cost or manual operations
Powered (live) rollers: Driven by belts, chains, or motors
Applications
Assembly lines: Moving chassis, panels, or modules
Shipping: Parcel distribution centers use powered rollers for zone routing
Pallet handling: Heavy-duty versions used in warehouses and palletizers
Features and Benefits
Increased Efficiency: Automated transport minimizes manual labor and maximizes throughput.
Versatile Material Handling: Adaptable to a wide range of product sizes and weights.
Optimized Product Flow: Controlled movement enhances efficiency and prevents bottlenecks.
Customizable Design: Roller and drive systems can be tailored to specific application needs.
Enhanced Productivity: Automated transport and accumulation capabilities improve overall productivity.
Zero-pressure accumulation: Uses sensors to space items evenly.
Zoned control: Sections activate based on item detection, saving energy.
3. Chain Conveyor Systems
Overview
Chain conveyors use chains to move products along a fixed path. They are known for durability and can handle heavy, awkward, or high-temperature loads over potentially very long distances.
Types
Single-strand or multi-strand chains.
Drag chain or slat-style chain links.
Applications
Automotive: Transporting engine blocks, chassis, and assemblies.
Metal fabrication: Moving large steel parts through welding or coating processes.
Paint booths: Indexing items through multi-stage painting systems.
Automation Features
Precision indexing for robotic interface.
Encoders and feedback loops for controlled motion.
Integrated with SCADA systems for diagnostics.
4. Slat Conveyor Systems
Overview
Slat conveyors consist of slats or plates (usually metal or plastic) mounted on chains. The slats create a smooth, durable surface.
Functionality
Ideal for applications requiring uniform support.
Often used when conveying heavy loads or when cleanliness is required.
Applications
Machining centers: Feeding parts into CNC machines or assembly jigs.
Appliance assembly: Moving dishwashers or washers through multiple operations.
Automotive trim line: Supports car doors or instrument panels during manual/robotic assembly.
Automation Features
Programmable stops for precision.
Easy integration with hydraulic or pneumatic tooling stations.
Can support vision systems for quality checks.
5. Modular Plastic Belt Conveyor Systems
Overview
These use interlocking plastic modules instead of a single continuous belt, offering flexibility and wash-down capability. The modular design also allows flexibility for curves and turns.
Benefits
Modular design allows for quick repair.
Can be built in curves, spirals, or inclined sections.
Applications
Food & beverage: For hygienic transport and sorting.
Bottling lines: Handling unstable or oddly shaped containers.
Medical device manufacturing: For cleanroom environments.
Automation Integration
Servo motors for dynamic control.
Sensors and smart belts for counting and sorting.
PLCs for timed release or batching.
6. Pallet Conveyor Systems
Overview
Pallet conveyors are designed specifically to transport heavy, palletized goods in distribution and manufacturing environments. Pallets can be zoned by either individual, modular conveyor sections or by mechanical stops that block the pallet on control system command.
Structure
Can consist of heavy-duty rollers or chains.
Often include turntables, lifts, and transfer stations.
Applications
Automated warehouses: Pallet shuttles for storage and retrieval.
Material staging: Feeding materials into robotic cells.
Shipping docks: Moving pallet loads for truck loading.
Automation Features
Pallet ID tracking via RFID.
Interfacing with AS/RS systems.
Forklift-free movement using autonomous pallet handlers.
7. Flexible Conveyor Systems
Overview
Flexible (or expandable) conveyors can be reconfigured, stretched, or curved as needed, typically mounted on casters.
Use Cases
Temporary installations or mobile work cells.
Loading/unloading trailers at docks.
Applications
E-commerce: Seasonal or pop-up fulfillment centers.
Returns processing: Mobile sorting stations.
Postal services: Sorting mail or parcels on demand.
Automation Enhancements
Sensor-based control for flow regulation.
Collapsible design for robotic trailer loaders.
Integrated scales and scanners for in-motion inspection.
8. Spiral Conveyor Systems
Overview
Spiral conveyors elevate or lower products on a helical path, saving floor space while moving goods vertically.
Construction
Modular belts or slats.
Single continuous incline or decline path.
Applications
Baked goods: Cooling and accumulation of products before packaging.
Beverage plants: Transporting bottles to different process levels.
Distribution centers: Connecting mezzanine and ground levels.
Buffering: is useful to create dwell time for production, freezing or cooking
Automation Capabilities
Continuous flow control for accumulation.
Programmable speed adjustment based on throughput needs.
Integration with pick stations or AGVs.
9. Vibratory and Oscillation Conveyor Systems
Overview
Vibratory conveyors move materials using controlled vibrations or oscillations, ideal for loose, small plastic and metal, granular, or powdery products.
Design Elements
Typically trough-shaped.
Uses electromagnets or motors to create vibration.
Applications
Bulk material handling: Moving grains, nuts, or powders.
Mining and minerals: Pre-screening or separation.
Recycling: Feeding material into crushers or sorters.
Automation Picking:
Automation Features
Adjustable frequency and amplitude for material control.
Can include sieves, diverters, or feeders.
Often used ahead of robotic bin-picking.
10. Sorting, Diverting, Merging Conveyor Systems
Overview
Sorting Conveyors are high-speed systems that sort or divert items by shifting them perpendicular to their travel direction onto appropriate output locations. One style of this type of conveyor is called AIM (Active Integrated Motion) where perpendicular stops are programmed to provide a specific types of diversion, switching, merging, separating or sorting, depending on the configuration. It is used in gentle product handling applications across several industries, including food processing, packaging, and brewing and beverage. AIM sorting, switching, and merging equipment is designed to perform in multiple environments, including washdown, to promote cleanability and line flexibility and reduce dependence on labor
How It Works
Pegs are positioned dynamically by a programmed controller
Belting is flexible for corners and is made of sanitary washdown-proof urethane
Applications
Food packaging: Directs product to proper lane
Retail fulfillment: High-throughput e-commerce orders.
Pharmaceutical logistics: Sorting medicine boxes to bins.
AIM Benefits
Increases throughput
Reduces footprint
Gently handles challenging products
Suitable for sanitary washdown applications
Comparison Table of Applications
Conclusion
The role of conveyor systems in industrial automation cannot be overstated. Each system listed above serves specific performance, product handling, and environmental needs. From lightweight parcel movement to sanitary applications for food processing to handling heavy automotive components, these systems enable lean operations and higher productivity.
Understanding the unique features and applications of these 10 conveyor types is crucial for system integrators, operations managers, and engineers designing smart factories or fulfillment centers. As Industry 4.0 evolves, these conveyor platforms will be increasingly embedded with IoT sensors, AI-based controls, and robotic coordination, transforming them from simple transport devices into intelligent logistics enablers.
We represent NCC Automated Systems, and their Glide-Line branded pallet conveyors; CDS – Gate Technologies Inc. precision indexing conveyors for automated assembly; Macron Dynamics, Inc. for overhead gantry conveyors / robots (not featured in this newsletter); Vibromatic Company, Inc. for vibratory conveying and bowl feeding and flexfactory ag in the conveying or part feeding space in the robotic manufacturing industry.
How Futura Automation can Support your Project
Contact us at: sales@futura-automation.com or 855-938-8872pcoming issues of “Simple Solutions for Automation”. If you would like more information on any of these systems, or others we can offer, please send us an email at tech@futura-automation.com
Introduction to Conveyor Systems in Automation
Automated conveyor systems are foundational to material handling in manufacturing, distribution, and logistics. They improve efficiency, reduce human labor, and ensure consistent throughput. This document outlines the 10 most essential conveyor system types that drive automation in modern industries. These exclude pneumatic, screw, overhead, and magnetic conveyors to focus on broader mechanical systems used in manufacturing automation.
1. Belt Conveyor Systems
Overview
Belt conveyors are the most widely used conveyor systems in automated environments. They consist of a continuous loop of material (the belt) driven by pulleys and rollers. One example is solid urethane belt conveyors are used in a wide variety of applications to meet a range of food-processing needs, including those in snack; fruit and vegetable; and meat, poultry, and seafood processing.
Construction and Function
Flat or troughed belts supported by rollers or a metal bed.
Drive pulley powered by an electric motor.
Can include tracking devices, variable speed drives, sensors, and PLC controls.
Applications
Packaging lines: Transporting consumer goods for labeling, sealing, and packing.
Warehousing: Moving cartons and parcels in fulfillment centers (e.g., Amazon).
Food processing: FDA-compliant belts transport food between preparation stages.
Pharmaceutical: Controlled environments use belt conveyors for capsule bottling.
Advantages
Smooth, continuous movement.
Adaptable to curves, inclines, and declines.
Easy to integrate with vision systems, pick-and-place robots, or scanning devices.
2. Roller Conveyor Systems
Overview
Roller conveyors use a series of rollers supported in a frame to move items by gravity or motorized drive.
Types
Gravity rollers: Unpowered, used for low-cost or manual operations
Powered (live) rollers: Driven by belts, chains, or motors
Applications
Assembly lines: Moving chassis, panels, or modules
Shipping: Parcel distribution centers use powered rollers for zone routing
Pallet handling: Heavy-duty versions used in warehouses and palletizers
Features and Benefits
Increased Efficiency: Automated transport minimizes manual labor and maximizes throughput.
Versatile Material Handling: Adaptable to a wide range of product sizes and weights.
Optimized Product Flow: Controlled movement enhances efficiency and prevents bottlenecks.
Customizable Design: Roller and drive systems can be tailored to specific application needs.
Enhanced Productivity: Automated transport and accumulation capabilities improve overall productivity.
Zero-pressure accumulation: Uses sensors to space items evenly.
Zoned control: Sections activate based on item detection, saving energy.
3. Chain Conveyor Systems
Overview
Chain conveyors use chains to move products along a fixed path. They are known for durability and can handle heavy, awkward, or high-temperature loads over potentially very long distances.
Types
Single-strand or multi-strand chains.
Drag chain or slat-style chain links.
Applications
Automotive: Transporting engine blocks, chassis, and assemblies.
Metal fabrication: Moving large steel parts through welding or coating processes.
Paint booths: Indexing items through multi-stage painting systems.
Automation Features
Precision indexing for robotic interface.
Encoders and feedback loops for controlled motion.
Integrated with SCADA systems for diagnostics.
4. Slat Conveyor Systems
Overview
Slat conveyors consist of slats or plates (usually metal or plastic) mounted on chains. The slats create a smooth, durable surface.
Functionality
Ideal for applications requiring uniform support.
Often used when conveying heavy loads or when cleanliness is required.
Applications
Machining centers: Feeding parts into CNC machines or assembly jigs.
Appliance assembly: Moving dishwashers or washers through multiple operations.
Automotive trim line: Supports car doors or instrument panels during manual/robotic assembly.
Automation Features
Programmable stops for precision.
Easy integration with hydraulic or pneumatic tooling stations.
Can support vision systems for quality checks.
5. Modular Plastic Belt Conveyor Systems
Overview
These use interlocking plastic modules instead of a single continuous belt, offering flexibility and wash-down capability. The modular design also allows flexibility for curves and turns.
Benefits
Modular design allows for quick repair.
Can be built in curves, spirals, or inclined sections.
Applications
Food & beverage: For hygienic transport and sorting.
Bottling lines: Handling unstable or oddly shaped containers.
Medical device manufacturing: For cleanroom environments.
Automation Integration
Servo motors for dynamic control.
Sensors and smart belts for counting and sorting.
PLCs for timed release or batching.
6. Pallet Conveyor Systems
Overview
Pallet conveyors are designed specifically to transport heavy, palletized goods in distribution and manufacturing environments. Pallets can be zoned by either individual, modular conveyor sections or by mechanical stops that block the pallet on control system command.
Structure
Can consist of heavy-duty rollers or chains.
Often include turntables, lifts, and transfer stations.
Applications
Automated warehouses: Pallet shuttles for storage and retrieval.
Material staging: Feeding materials into robotic cells.
Shipping docks: Moving pallet loads for truck loading.
Automation Features
Pallet ID tracking via RFID.
Interfacing with AS/RS systems.
Forklift-free movement using autonomous pallet handlers.
7. Flexible Conveyor Systems
Overview
Flexible (or expandable) conveyors can be reconfigured, stretched, or curved as needed, typically mounted on casters.
Use Cases
Temporary installations or mobile work cells.
Loading/unloading trailers at docks.
Applications
E-commerce: Seasonal or pop-up fulfillment centers.
Returns processing: Mobile sorting stations.
Postal services: Sorting mail or parcels on demand.
Automation Enhancements
Sensor-based control for flow regulation.
Collapsible design for robotic trailer loaders.
Integrated scales and scanners for in-motion inspection.
8. Spiral Conveyor Systems
Overview
Spiral conveyors elevate or lower products on a helical path, saving floor space while moving goods vertically.
Construction
Modular belts or slats.
Single continuous incline or decline path.
Applications
Baked goods: Cooling and accumulation of products before packaging.
Beverage plants: Transporting bottles to different process levels.
Distribution centers: Connecting mezzanine and ground levels.
Buffering: is useful to create dwell time for production, freezing or cooking
Automation Capabilities
Continuous flow control for accumulation.
Programmable speed adjustment based on throughput needs.
Integration with pick stations or AGVs.
9. Vibratory and Oscillation Conveyor Systems
Overview
Vibratory conveyors move materials using controlled vibrations or oscillations, ideal for loose, small plastic and metal, granular, or powdery products.
Design Elements
Typically trough-shaped.
Uses electromagnets or motors to create vibration.
Applications
Bulk material handling: Moving grains, nuts, or powders.
Mining and minerals: Pre-screening or separation.
Recycling: Feeding material into crushers or sorters.
Automation Picking:
Automation Features
Adjustable frequency and amplitude for material control.
Can include sieves, diverters, or feeders.
Often used ahead of robotic bin-picking.
10. Sorting, Diverting, Merging Conveyor Systems
Overview
Sorting Conveyors are high-speed systems that sort or divert items by shifting them perpendicular to their travel direction onto appropriate output locations. One style of this type of conveyor is called AIM (Active Integrated Motion) where perpendicular stops are programmed to provide a specific types of diversion, switching, merging, separating or sorting, depending on the configuration. It is used in gentle product handling applications across several industries, including food processing, packaging, and brewing and beverage. AIM sorting, switching, and merging equipment is designed to perform in multiple environments, including washdown, to promote cleanability and line flexibility and reduce dependence on labor
How It Works
Pegs are positioned dynamically by a programmed controller
Belting is flexible for corners and is made of sanitary washdown-proof urethane
Applications
Food packaging: Directs product to proper lane
Retail fulfillment: High-throughput e-commerce orders.
Pharmaceutical logistics: Sorting medicine boxes to bins.
AIM Benefits
Increases throughput
Reduces footprint
Gently handles challenging products
Suitable for sanitary washdown applications
Comparison Table of Applications
Conclusion
The role of conveyor systems in industrial automation cannot be overstated. Each system listed above serves specific performance, product handling, and environmental needs. From lightweight parcel movement to sanitary applications for food processing to handling heavy automotive components, these systems enable lean operations and higher productivity.
Understanding the unique features and applications of these 10 conveyor types is crucial for system integrators, operations managers, and engineers designing smart factories or fulfillment centers. As Industry 4.0 evolves, these conveyor platforms will be increasingly embedded with IoT sensors, AI-based controls, and robotic coordination, transforming them from simple transport devices into intelligent logistics enablers.
We represent NCC Automated Systems, and their Glide-Line branded pallet conveyors; CDS – Gate Technologies Inc. precision indexing conveyors for automated assembly; Macron Dynamics, Inc. for overhead gantry conveyors / robots (not featured in this newsletter); Vibromatic Company, Inc. for vibratory conveying and bowl feeding and flexfactory ag in the conveying or part feeding space in the robotic manufacturing industry.
How Futura Automation can Support your Project
Contact us at: sales@futura-automation.com or 855-938-8872
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