Industry applications

Robot automation by factory application, product type, and line layout.

Start from the production problem, then connect the product, payload, throughput, robot series, gripper, conveyors, and quotation data.

Palletizing & End-of-Line Automation automation solution

Recommended robot series

SCH SeriesSCR SeriesSAR Series

Palletizing & End-of-Line Automation

Robot palletizing systems for cartons, bags, boxes, cases, and heavy industrial products where factories need stable stacking and reduced manual labor.

Buyer challenges

  • Manual stacking is labor intensive and difficult to keep stable across shifts.
  • Different SKUs, pallet sizes, and stacking patterns slow down quotation and line design.
  • Heavy loads increase safety risk and make consistent throughput harder to maintain.

SCR approach

  • Match payload, reach, gripper type, stack height, and line speed to the actual product.
  • Combine robot, infeed conveyor, pallet position, safety guarding, and pallet pattern logic.
  • Provide a practical concept for overseas buyers to review with engineering and purchasing teams.

Typical system scope

Robot bodyGripper toolingConveyor infeedPallet pattern logicSafety guardingPLC/HMI
Depalletizing & Material Feeding automation solution

Recommended robot series

SCH SeriesSAR SeriesER Series

Depalletizing & Material Feeding

Depalletizing cells for bags, cartons, cases, and mixed product handling where the downstream line needs reliable automatic feeding.

Buyer challenges

  • Incoming pallets may vary in stack condition, material type, and product stability.
  • Manual feeding can become a bottleneck before packaging, mixing, or processing equipment.
  • Irregular loads need careful gripper and detection planning before automation starts.

SCR approach

  • Review product geometry, surface condition, bag flexibility, stack pattern, and downstream handoff.
  • Plan robot reach, gripper contact, detection method, and conveyor transfer as one working cell.
  • Add 3D vision options when product position or stack condition varies too much for fixed pickup.

Typical system scope

Robot depalletizingProduct detectionCustom gripperDownstream conveyorVision optionSafety layout
3D Vision Bag Breaking & Powder Handling automation solution

Recommended robot series

ER SeriesSCH SeriesSAR Series

3D Vision Bag Breaking & Powder Handling

Automation for bag picking, breaking, feeding, and dusty material processes where reliability depends on vision, tooling, and containment.

Buyer challenges

  • Bags deform, shift, and stack unevenly, which makes fixed-position pickup unreliable.
  • Powder and granular materials create dust, contamination, and operator exposure concerns.
  • Factories need smoother feeding into mixers, hoppers, and processing equipment.

SCR approach

  • Use 3D vision or guided pickup concepts when bag position cannot be fixed mechanically.
  • Design end tooling around bag weight, surface material, deformation, and break method.
  • Consider dust control, handoff position, and downstream equipment early in the proposal.

Typical system scope

3D visionBag gripperBag breaking stationFeeding conveyorDust-aware layoutPLC integration
Stamping, Press & Forging Automation automation solution

Recommended robot series

STC SeriesER SeriesSAR Series

Stamping, Press & Forging Automation

Press-side robots and transfer systems for repetitive loading, unloading, part transfer, and hot-work handling around stamping or forging lines.

Buyer challenges

  • Press-side manual handling is repetitive, timing sensitive, and exposed to safety risk.
  • Part position, press spacing, fixture design, and cycle time must be checked together.
  • Hot or heavy parts require robust tooling and safe movement paths.

SCR approach

  • Review press tonnage, line spacing, part size, part weight, and transfer direction.
  • Match robot axes, reach, fixture handoff, and interlock logic to the line rhythm.
  • Support custom tooling and safety integration for press-side automation projects.

Typical system scope

Press loadingPart transferFixture toolingInterlocksSafety guardingLine synchronization
Machine Tending & Production Cells automation solution

Recommended robot series

ECR SeriesSRL SeriesER Series

Machine Tending & Production Cells

Compact robot cells for machine loading, unloading, part movement, and repeatable handling around CNC, processing, and assembly equipment.

Buyer challenges

  • Operators spend too much time on repetitive loading and unloading work.
  • Small batch production needs flexible layout without wasting factory space.
  • Part orientation, fixture location, and machine door timing affect automation success.

SCR approach

  • Check part geometry, fixture position, machine access, door clearance, and required cycle time.
  • Use compact four-axis or six-axis robots depending on reach and orientation needs.
  • Plan the full cell around robot footprint, guarding, infeed/outfeed, and operator access.

Typical system scope

Machine loadingPart unloadingFixturesCompact cell layoutSafety accessCycle-time review
Conveyor & Line Integration automation solution

Recommended robot series

SCH SeriesECR SeriesER Series

Conveyor & Line Integration

Conveyor automation for product transport, turning, accumulation, pallet flow, robot infeed, and complete factory material handling systems.

Buyer challenges

  • Robot performance depends on stable product presentation and downstream material flow.
  • Conveyor speed, direction, spacing, and accumulation can limit the complete system.
  • Factories often need custom integration between existing equipment and new robot cells.

SCR approach

  • Design conveyor layout together with robot reach, gripper timing, safety, and line control.
  • Support roller conveyors, powered turns, pallet flow, infeed/outfeed, and custom transfer points.
  • Integrate PLC/HMI logic so the robot cell works as part of the wider production line.

Typical system scope

Powered conveyorsRoller turnsRobot infeedPallet flowSensorsPLC/HMI integration

Quotation readiness

The fastest proposals start with clear production data.

A strong inquiry helps engineering identify the robot series, gripper, conveyors, safety layout, and budget direction without wasting days on basic clarification.

Product size, weight, packaging, and surface condition
Target throughput, cycle time, and shift schedule
Factory layout, available floor area, and infeed/outfeed direction
Safety requirements, downstream equipment, and destination country

Start with your factory data

Send product photos, throughput, and layout for a practical proposal.

We can help map the robot platform, end-of-arm tooling, conveyor layout, and engineering scope for your production line.