Robotic Painting Systems & Paint Booth Automation Integrator
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Pre-Engineering Assessment - 6 Steps
Start assessment ->International Industrial Coating System Expert
TD Painting Systems
TD Painting Systems delivers industrial painting systems across the full value chain: turnkey painting shops, robotic workstations, paint supply systems, spare parts, and technical services.
With 500+ systems deployed across 30+ countries, we serve automotive body shops, parts paint lines, and industrial manufacturing facilities. Our integrated approach delivers consistent quality, optimized throughput, and reduced total cost of ownership.
For a broader view of industrial painting systems, start with the solutions hub before narrowing into booth, robot, or process-specific pages.
Whether you need a complete painting shop design, a single robotic cell, paint supply equipment, or ongoing maintenance support, we provide the expertise and equipment to meet your industrial coating requirements.
Best fit
Projects that need a defined robotic painting, booth-automation, or industrial-finishing integration scope.
Not ideal for
One-off low-volume requests that only need a generic equipment quote without stable process inputs or site review.
Prepare before inquiry
Bring part family, finish target, takt or throughput, changeover pattern, and current booth or layout constraints.
Our Complete Offering
Full-Spectrum Coating Solutions
From turnkey painting shops to spare parts and services, explore our integrated business model.
Track record
Proven at Scale
Application sectors
Select your application
Engineering scope
What We Deliver
Robotic painting system integration for automotive production
Automated spray painting workstations and robotic painting cells
Paint booth automation and process engineering (new booth or retrofit)
Industrial robot configuration (ABB / FANUC / KUKA)
Spray technology options: electrostatic, HVLP, air spray
Control integration with PLC and robot controllers
Commissioning, deployment, and production startup support
For system-level integration details, see Robotic Painting System.
For booth-specific scope, see Paint Booth Automation.
Planning robot selection? See How to Choose a Paint Robot and Robotic Painting Cost Guide.
System Architecture
Complete Paint Cell Solution
Industrial Robot
6-axis articulated robot optimized for spray painting applications with extended reach and payload.
Spray Equipment
Integrated spray guns, pumps, and fluid handling systems for precise paint delivery.
Paint Booth & Ventilation
Purpose-built spray booth with exhaust systems meeting safety and environmental standards.
Process Controls
Advanced HMI and recipe management for consistent paint parameters and traceability.
Project lifecycle
Deployment process
Requirements Review
Confirm parts, coating targets, throughput, and site constraints before detailed engineering.
Concept & Layout
Define cell architecture, robot selection, booth interfaces, and material handling approach.
Detailed Engineering
Finalize process flow, controls, utility scope, and integration details for manufacturing and site prep.
Manufacturing & FAT
Assemble core equipment, verify controls, and complete factory acceptance checks before shipment.
Installation
Coordinate equipment delivery, mechanical and electrical hookup, and site readiness checks.
Commissioning
Tune robot paths, spray parameters, airflow, and recipe logic for stable startup performance.
Ramp-Up Support
Support production validation, operator training, and the first phase of steady-state operation.
TD systems are designed for rapid deployment within standard industrial timelines.
Engineering Rationale
Why Robotic Painting?
Improve coating consistency with repeatable spray paths and reduced human variability.
Reduce paint waste through optimized transfer efficiency and tighter process control.
Stabilize production throughput with repeatable cycle times and planned changeovers.
Lower labor pressure by shifting skilled operators toward prep, QA, and process oversight.
Meet VOC and safety requirements with enclosed robotic cells and engineered ventilation.
Quality Consistency
Achieve repeatable, high-quality paint finishes with robotic precision that eliminates human variability.
Driven by part presentation and path repeatability.
Increased Throughput
Maximize production capacity with faster cycle times and continuous operation capabilities.
Takt time and changeover define real capacity.
Labor Reduction
Reduce dependency on skilled manual painters and reallocate workforce to higher-value tasks.
Automation boundary determines operator workload.
Safety & Compliance
Protect workers from hazardous paint fumes and overspray while meeting stringent regulatory requirements.
Ventilation and site constraints set the baseline.
Get started
Start your robotic painting project
Tell us about your parts, coating requirements, and production needs.
Free initial assessment | No commitment | Engineering review within 1-2 business days
Project references
Project References
200,000 vehicles/year capacity
32-robot complete vehicle body painting line
EV Plastic Parts65-96 sec per fixture
ABB line with integrated flame treatment
Tier 1 Exterior Parts26+ robots on dual-color line
Water-based exterior trim and bumper references
International ProjectVINFAST Thailand deployment
Yaskawa MPX2600 exterior-parts project
Trusted By Leading Manufacturers
Technology Partners & Ecosystem
Topic cluster
ATEX spray painting booth
This cluster organizes the safety, zoning, airflow, and retrofit decisions behind ATEX-ready spray booth projects for solvent-based robotic painting.
Topic cluster
flame treatment
This cluster centers on adhesion-critical coating projects where flame treatment turns low-surface-energy plastics into paintable parts.
Topic cluster
paint booth design
This cluster ties booth layout, airflow, ventilation, filtration, and project-scope decisions into one organized topic pathway.
Topic cluster
paint robot selection
This cluster turns robot-selection traffic into a full decision path covering specs, terminology, real use cases, and integration scope.
Topic cluster
robotic painting
This cluster organizes broad robotic painting research into a clearer path from automation fit and ROI questions to system scope, robot planning, and deployment decisions.
Topic cluster
furniture coating
This cluster connects furniture finishing research to the real choices behind panel lines, robotic spray cells, visible-surface quality, and mixed-product flow.
Topic cluster
metal parts finishing
This cluster focuses on the engineering choices behind robotic finishing lines for fabricated metal parts, enclosures, frames, and mixed-model industrial components.
Explore
Solutions
- Scope a full robotic painting cell
Start with the main commercial page for robot, booth, paint supply, and controls scope.
- Plan booth airflow and retrofit scope
Useful when the line question is really about booth limits, airflow, and integration boundaries.
- Move from robot interest into integration work
A narrower page for teams already evaluating robot deployment and programming scope.
- Compare panel-oriented finishing layouts
Commercial entry point for flat-part, panel, and furniture-oriented line concepts.
Industries
- Review metal parts finishing projects
Strongest industry hub for mixed-model industrial finishing and robotic paint cells.
- See plastics and composite coating lines
Best fit for adhesion-critical programs involving plastics, flame treatment, and surface prep.
- Explore furniture and wood coating systems
Industry path for cabinet, furniture, and panel-finishing programs.
- Check automotive painting programs
Use this when the finish target is closer to high-volume automotive quality and throughput.
Knowledge
- Decide when robotic paint automation fits
Broad planning guide for separating real automation candidates from weak-fit lines.
- Choose the right paint robot for the job
Selection guide for reach, payload, protection level, and integration fit.
- Compare roller, spray, and robotic furniture paths
Useful when broad painting intent starts narrowing into furniture or panel applications.
- Review booth design before locking equipment
Planning guide for airflow, footprint, and retrofit boundaries.
Frequently asked questions
What is a robotic painting system integrator?
A robotic painting system integrator designs and integrates robots, spray technologies, paint supply systems, controls, and commissioning workflows into a complete finishing solution that delivers repeatable quality and stable throughput.
How does paint booth automation improve production?
Paint booth automation stabilizes airflow, ventilation, and safety controls, reduces process variability, and supports repeatable finishing outcomes with reduced rework and more consistent production conditions.
What industries use robotic spray painting?
Robotic spray painting is commonly used for automotive components and other industrial finishing applications where repeatable coating quality, controlled process stability, and scalable throughput are required.
What is required to start a robotic painting project?
To start a project assessment, provide part drawings or dimensions, coating requirements, throughput targets, booth situation information, and site-classification needs such as ATEX where applicable.