Coating Equipment & Parts
Quality spray equipment, pumps, control systems, and spare parts from leading manufacturers. Technical support and fast delivery for your coating operations.
Product selection is usually wrong when teams start from brand preference or a single model number. The better sequence is: confirm part family, finish target, takt, changeover, and coating chemistry first, then map those constraints to equipment families and only then compare specific models.
Selection basis
Updated on 2026-04-16. This page is for narrowing equipment families, not for replacing process review. Final model choice still depends on coating chemistry, part presentation, changeover logic, controls standards, and site compliance constraints.
Decision first
Decide the fit before you compare brands
The best product page is not a catalog. It should tell you whether you are even solving the right problem, where equipment selection is likely to go wrong, and which inputs can change the answer.
Best for
Projects that already know the automation boundary
Use this page when you have already decided the line needs a defined equipment stack and now need to map process conditions to product families.
Not ideal for
Teams still deciding whether to automate at all
If the real question is manual vs semi-automatic vs robotic, a product list is too early. Start with the solution or feasibility pages first.
Decision changes when
Chemistry, changeover, or takt assumptions move
Model choice changes quickly when paint type, color-count, finish target, part size, or cleaning frequency changes during scope definition.
Inputs to confirm
Confirm these four inputs before choosing any model
If any of these inputs are still vague, model names are premature. This is the minimum information set needed before a product recommendation becomes reliable.
Part family and finish target
Visible Class A surfaces, corrosion-protection coating, or utility-grade finish will drive atomizer type, control depth, and process tolerance.
Geometry, reach, and presentation method
Model choice depends on part envelope, required spray angle, robot reach, hose routing, fixture repeatability, and whether the part is indexed or conveyed.
Takt, batch size, and color-change frequency
The right bell, gun, pump, or color-change block depends on whether the line runs long batches or frequent short runs with cleaning loss pressure.
Coating chemistry and site constraints
Solvent vs water-based paint, viscosity window, ATEX classification, available utilities, and controls standards can eliminate product families early.
Typical mapping
Typical scenario-to-model mapping
These are starting points, not fixed prescriptions. The mapping changes when finish class, color count, solvent strategy, or part handling changes.
Scenario
High-volume exterior plastic parts with tight finish consistency
ABB IRB 5500 + electrostatic rotary bell + centralized color change
Best fit when the line needs repeatable Class A appearance, stable film build, and disciplined multi-color production.
Scenario
Medium-size automotive or appliance parts with frequent geometry variation
FANUC MPX 2600/3500 + gun-based spray package + recipe-based controls
Useful when reach, path speed, and changeover control matter more than maximum bell throughput.
Scenario
Large metal structures, rails, or heavy pre-treatment tasks
ABB IRB 6700 or rail-mounted robot + heavy-duty fluid handling + PLC integration
Better for larger envelopes, heavier end-of-arm loads, and jobs where handling scope matters as much as spraying.
Scenario
Short-run or retrofit lines that still need simpler fluid handling
Air-spray or HVLP gun package + pump/pressure-tank supply + staged controls upgrade
Often the safer step when the line needs cleaner presentation and process discipline before a full robotic bell system is justified.
Categories
Product Categories
Once the decision boundary is clear, use these categories to drill into the specific hardware family that needs commercial comparison or technical clarification.
Robot Platforms
Painting Robot Models We Integrate
IRB 5500
Reach 2.98 m, payload 13 kg
Dedicated painting robot with hollow wrist and explosion-proof design for automotive bumpers, trim, and component painting.
IRB 6700
Reach 2.6 to 3.2 m, payload 150 to 235 kg
High-payload robot used for flame treatment, heavy fixturing, and pre-treatment stations in painting lines.
MPX 3500
Reach 1.56 m, painting-specific
Compact explosion-proof painting robot with integrated hollow arm for paint line routing and high takt-time production.
MPX 2600
Reach 1.86 m, painting-specific
Extended-reach painting robot for larger parts and booth configurations used in international deployments.
Painting Series
7-axis with linear track
Rail-mounted painting robots for large parts such as excavator booms, frames, and structural components.
Painting Robots
6-axis, cost-effective
Cost-effective painting robots for general industrial applications and 3C electronics paint lines.
Technology Partners
Brands We Work With
Need Equipment or Parts?
Contact us for product specifications, pricing, and availability. Technical support included.