사출성형기용 다관절 로봇 시장 규모 : 로봇 유형별, 용도별, 지역별, 예측별

Global Articulated Robots for Injection Molding Machine Market Size And Forecast

Market capitalization in the articulated robots for injection molding machine market reached a significant USD 3.04 Billion in 2025 and is projected to maintain a strong 10.2% CAGR during the forecast period from 2027 to 2033. A company-wide policy adopting increasing automation across plastic manufacturing facilities, rising labor cost pressure, and growing demand for high precision part handling across mass production environments supports strong expansion across this technology domain. The market is projected to reach a figure of USD 6.61 Billion by 2033, indicating a significant reassessment of the entire economic landscape.

Global Articulated Robots for Injection Molding Machine Market Overview

The articulated robots for injection molding machine market refers to a classification used to define business activity associated with robotic systems designed for automated handling and processing within injection molding operations. The term serves as a boundary-setting construct rather than a performance claim, indicating what is included and excluded based on technical specifications, operational use-cases, and regulatory compliance.

In market research, articulated robots for injection molding machines are treated as a standardized category to enable consistent data collection, comparison, and reporting, ensuring that references to this market align across stakeholders and time periods.

The articulated robots for injection molding machines market is shaped by steady demand from plastic manufacturing and industrial applications, where performance reliability, precision, and operational compliance are prioritized over volume driven expansion. Procurement decisions are typically influenced by supply dependability, cost stability, and regulatory alignment rather than short-term growth objectives.

With periodic adjustments linked to contract cycles rather than spot volatility, pricing monitors input costs and raw material trends. Activity in the near future is anticipated to follow policy directives, automation adoption initiatives, and environmental or safety standards that affect sourcing and deployment decisions within manufacturing operations.

Global Articulated Robots for Injection Molding Machine Market Drivers

The market drivers for the articulated robots for injection molding machine market can be influenced by various factors. These may include:

Rising Automation Across Plastic Manufacturing Facilities: Increasing automation across plastic manufacturing facilities is supporting expansion across the articulated robots for injection molding machine market. High volume production lines require reliable handling systems capable of maintaining constant cycle timing without fatigue or operational variability. Robotic automation improves repeatability and production efficiency across injection molding operations. Smart factory strategies are being implemented, with articulated robots integrated within automated production cells to enhance productivity and reduce reliance on manual labor. Continuous operation capability allows molding plants to maintain higher utilization rates throughout extended production schedules. Demand is strengthened across equipment suppliers specializing in injection molding robotics integration.

Growing Demand for Precision Part Handling: Rising demand for precision part handling across plastic component manufacturing is supporting wider adoption of articulated robotic systems. Injection-molded components require careful extraction and positioning immediately after mold release to prevent deformation or surface damage. Robotic handling ensures stable grip control, precise placement, and consistent transfer across downstream operations such as trimming, inspection, or assembly. High repeatability across robotic motion sequences is reducing part rejection rates and improving manufacturing consistency. Complex components for electronics, automotive assemblies, and medical equipment are increasingly relying on robotic automation to maintain strict dimensional accuracy across large production volumes.

Labor Cost Pressure Across Industrial Manufacturing: Increasing labor cost pressure across industrial manufacturing environments is contributing to higher demand for robotic automation systems. Injection molding facilities operating continuously across multiple shifts require significant workforce resources for repetitive handling tasks. Articulated robots support automated extraction, stacking, and packaging operations without interruptions linked to workforce availability. Long-term operational cost efficiency is encouraging manufacturers to invest in robotic systems capable of supporting stable production performance. Both developed and emerging economies are prioritizing automation investments to manage workforce shortages and improve cost predictability.

Integration with Smart Manufacturing Technologies: Advancements in digital manufacturing technologies are supporting integration of articulated robots within connected factory environments. Modern robotic systems operate alongside programmable logic controllers, industrial sensors, and production monitoring software platforms. Data collection across robotic motion cycles supports operational analytics, predictive maintenance planning, and production efficiency monitoring across injection molding facilities. Adoption of Industry 4.0 frameworks is facilitating incorporation of articulated robots within automated production cells as part of broader factory digitization programs, strengthening automation reliability and improving visibility across workflows.

Global Articulated Robots for Injection Molding Machine Market Restraints

Several factors act as restraints or challenges for the articulated robots for injection molding machine market. These may include:

High Initial Capital Investment: High upfront equipment investment requirements are limiting adoption among small and medium scale plastic manufacturers. Robotic automation systems require significant financial allocation covering robotic units, control systems, safety equipment, and integration services. Facility modifications and operator training programs are further increasing the total investment required during automation deployment. Budget limitations across smaller production facilities are delaying adoption timelines. Long-term return on investment evaluations are slowing expansion within cost sensitive industrial environments.

Technical Integration Complexity: Technical integration challenges across existing production infrastructure are creating barriers during automation deployment. Injection molding facilities operating with legacy machines often require specialized engineering adjustments before robotic systems are integrated successfully. Synchronization between molding cycles and robotic handling sequences requires careful programming and testing during installation. Integration complexity is increasing project implementation timelines across manufacturing plants. Limited availability of skilled robotics engineers across certain regions is slowing adoption within smaller industrial facilities.

Maintenance and Operational Skill Requirements: Specialized maintenance and operational expertise are required to maintain long-term performance reliability of robotic automation systems. Technicians capable of troubleshooting servo motors, robotic joints, control software, and safety systems must be trained. Skill shortages across industrial robotics maintenance personnel are creating operational risk across facilities implementing automated systems. Improper maintenance practices are leading to equipment downtime or production interruptions. Manufacturing plants without dedicated automation engineering teams are relying on external service providers for maintenance support.

Economic Uncertainty Affecting Capital Equipment Investment: Economic fluctuations are influencing capital equipment investment cycles across manufacturing industries. Injection molding companies frequently delay large automation projects during periods of economic uncertainty or reduced production demand. Fluctuating raw material costs and shifting consumer demand patterns across plastic products are reducing investment activity across manufacturing facilities. Capital allocation decisions within industrial companies are prioritizing operational stability during uncertain economic conditions. These investment delays are influencing short-term purchasing activity across the articulated robots for injection molding machine market.

Global Articulated Robots for Injection Molding Machine Market Segmentation Analysis

The Global Articulated Robots for Injection Molding Machine Market is segmented based on Robot Type, Application, and Geography.

Articulated Robots for Injection Molding Machine Market, By Robot Type

In the articulated robots for injection molding machine market, robots are commonly categorized into three main types. 4-axis robots are used where basic pick and place operations are required, supporting simple handling tasks and cost effective automation deployment. 5-axis robots are employed for moderate positioning complexity, offering additional rotational movement for improved part orientation and preferred in mid-complexity production lines. 6-axis robots are chosen for advanced multi-axis articulation, enabling high-precision handling and complex motion patterns, supporting high-end injection molding applications and precision-focused manufacturing. The market dynamics for each type are broken down as follows:

4-Axis Robots: 4-axis robots are maintaining significant presence in injection molding automation, where basic pick-and-place operations drive production workflows. They perform reliable extraction of molded components from machines followed by controlled placement onto conveyors or trays. Adoption is registering steady growth as manufacturers continue deploying cost-effective automation solutions for simple handling tasks.

5-Axis Robots: 5-axis articulated robots are experiencing a surge in adoption, supporting greater flexibility across part handling operations with moderate positioning complexity. Additional rotational movement allows improved orientation control when transferring molded components toward secondary processing stations. These are emerging as preferred solutions in mid-complexity production lines, driving accelerated deployment across manufacturing facilities.

6-Axis Robots: 6-axis robots dominate due to advanced motion flexibility and high-precision handling capability. Full multi-axis articulation allows arms to perform complex movement patterns required across advanced manufacturing tasks. They are commanding substantial market share, expanding rapidly within high-end injection molding applications, and registering accelerated growth among precision-focused manufacturers.

Articulated Robots for Injection Molding Machine Market, By Application

In the articulated robots for injection molding machine market, applications are commonly divided across four main uses. Part handling is deployed for automated extraction and transfer, improving cycle times and efficiency. Assembly operations are used for immediate component integration after molding, supporting higher throughput and precision. Packaging and palletizing are applied to organize finished components into storage or distribution units, reducing manual labor dependence. Quality inspection is performed with machine vision-equipped robots to verify dimensional accuracy and surface quality, enhancing defect detection and throughput. The market dynamics for each type are broken down as follows:

Part Handling: Part handling dominates due to constant demand for automated extraction and transfer operations within molding facilities. Robotic arms remove molded parts immediately after mold opening and place them onto conveyors, cooling racks, or sorting systems. Adoption is maintaining significant presence as high speed handling robots are increasingly integrated across manufacturing facilities. Efficiency improvements and reduced cycle times are further encouraging adoption of advanced handling solutions.

Assembly Operations: Assembly operations are emerging as the fastest growing segment, showing rising use of articulated robots within automated injection molding environments. Certain plastic products require immediate assembly of additional components such as inserts, fasteners, or electronic parts directly after molding. Integration of robots in assembly lines is registering accelerated growth as manufacturers seek higher throughput and precision. Automated assembly is also reducing defect rates and improving consistency across complex product lines.

Packaging & Palletizing: Packaging and palletizing are commanding substantial share, with robots organizing finished components into packaging trays, cartons, or pallets for storage and distribution. Implementation is expanding rapidly as manufacturers optimize logistics and reduce manual labor reliance. Scalable automation is allowing manufacturers to handle higher volumes with minimal operational bottlenecks.

Quality Inspection: Quality inspection is experiencing a surge in adoption as articulated robots equipped with machine vision systems are increasingly deployed. Robotic arms position molded components under inspection cameras or measurement equipment to verify dimensional accuracy and surface quality. Deployment is dominating growth in precision focused production, driven by rising standards for automated quality control. Integration with AI-driven defect detection is further enhancing inspection accuracy and throughput.

Articulated Robots for Injection Molding Machine Market, By Geography

In the articulated robots for injection molding machine market, North America and Europe show strong demand driven by advanced manufacturing infrastructure and established industrial users, with buyers favoring automation investments to improve productivity and efficiency. Asia Pacific emerges as the fastest growing region, led by large-scale plastic manufacturing in China, Japan, South Korea, and India, and supported by government incentives for smart manufacturing. Latin America registers moderate growth with gradual adoption of robotic handling systems, while the Middle East and Africa show emerging demand linked to infrastructure development and automation awareness, making skill development and operational readiness key factors across the region. The market dynamics for each region are broken down as follows:

North America: North America dominates due to advanced manufacturing infrastructure and high labor costs. Plastic component manufacturers in automotive, healthcare, and packaging prioritize automation investments to improve productivity. Significant presence is maintained and accelerated growth is registered as adoption of high precision robotic systems continues across industrial hubs. Continuous research and development in robotics and collaborative automation solutions is further supporting adoption among manufacturers.

Europe: Europe commands substantial share, supported by advanced industrial ecosystems. Automotive component production and high precision plastic part manufacturing are driving automation adoption across factories. A surge in demand for articulated robotic solutions is observed, with rapid expansion across production facilities. Strong regulatory support for manufacturing efficiency and safety standards is reinforcing investment in robotic automation.

Asia Pacific: Asia Pacific emerges as the fastest growing region, leading global production and consumption of articulated robots for injection molding machines. Large-scale plastic manufacturing in China, Japan, South Korea, and India drives strong adoption of automated molding equipment. Rapid expansion continues as industrial automation initiatives and high volume production requirements accelerate uptake. Government incentives for smart manufacturing and robotics integration are boosting technology deployment.

Latin America: Latin America registers moderate growth as injection molding automation adoption increases. Automotive assembly plants and packaging product manufacturers are increasingly introducing robotic handling systems to improve productivity. Steady expansion is observed with gradual uptake of advanced robotic solutions. Local partnerships and training programs are enhancing operational readiness for automation deployment.

Middle East and Africa: Middle East and Africa are emerging with growing demand for robotic automation solutions in plastic manufacturing. Infrastructure development and packaging production activity support moderate adoption of injection molding automation systems. Presence is gradually increasing as modernization and automation awareness expand across manufacturing operations. Investment in technical skill development and automation training is strengthening long-term adoption prospects.

Key Players

• The competitive landscape is increasingly determined by how well players adjust to new consumer values, even though it is still based on brand equity and scale. Even though market consolidation continues to change the strategic map, supply chain ethics, scientific innovation in comfort, and verifiable eco-credentials are now the main areas of strategic differentiation.
• Key Players Operating in the Global Articulated Robots for Injection Molding Machine Market
• Yaskawa Electric Corporation
• FANUC Corporation
• ABB Ltd.
• Kawasaki Heavy Industries Ltd.
• KUKA AG
• Sepro Group
• Engel Austria GmbH
• Wittmann Battenfeld Group
• Star Seiki Co., Ltd.
• Harmo Co., Ltd.
• Market Outlook and Strategic Implications
• Growth momentum is remaining stable, while strategic focus is increasingly prioritizing compliance readiness, premiumization, and consumer trust reinforcement. Investment allocation is shifting toward scalable innovation and lifecycle value, as transparency, safety assurance, and access expansion are emerging as long-term competitive differentiators.
• Key Developments in Articulated Robots for Injection Molding Machine Market
• SoftBank Group announced an agreement to acquire ABB's industrial robotics division in a multibillion-dollar deal in 2025, marking a major consolidation and strategic shift in the global industrial robotics landscape.
• Recent Milestones

2022: KUKA AG recorded approximately €3.9 billion in sales revenue for FY2022, reflecting strong adoption of robotic automation solutions across industrial sectors including plastics and molded component production.

TABLE OF CONTENTS

1 INTRODUCTION

• 1.1 MARKET DEFINITION
• 1.2 MARKET SEGMENTATION
• 1.3 RESEARCH TIMELINES
• 1.4 ASSUMPTIONS
• 1.5 LIMITATIONS

2 RESEARCH METHODOLOGY

• 2.1 DATA MINING
• 2.2 SECONDARY RESEARCH
• 2.3 PRIMARY RESEARCH
• 2.4 SUBJECT MATTER EXPERT ADVICE
• 2.5 QUALITY CHECK
• 2.6 FINAL REVIEW
• 2.7 DATA TRIANGULATION
• 2.8 BOTTOM-UP APPROACH
• 2.9 TOP-DOWN APPROACH
• 2.10 RESEARCH FLOW
• 2.11 DATA SOURCES

3 EXECUTIVE SUMMARY

• 3.1 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET OVERVIEW
• 3.2 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET ESTIMATES AND FORECAST (USD BILLION)
• 3.3 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET ECOLOGY MAPPING
• 3.4 COMPETITIVE ANALYSIS: FUNNEL DIAGRAM
• 3.5 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET ABSOLUTE MARKET OPPORTUNITY
• 3.6 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET ATTRACTIVENESS ANALYSIS, BY REGION
• 3.7 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET ATTRACTIVENESS ANALYSIS, BY ROBOT TYPE
• 3.8 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET ATTRACTIVENESS ANALYSIS, BY APPLICATION
• 3.9 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET GEOGRAPHICAL ANALYSIS (CAGR %)
• 3.10 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET, BY ROBOT TYPE (USD BILLION)
• 3.11 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET, BY APPLICATION (USD BILLION)
• 3.12 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET, BY GEOGRAPHY (USD BILLION)
• 3.13 FUTURE MARKET OPPORTUNITIES

4 MARKET OUTLOOK

• 4.1 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET EVOLUTION
• 4.2 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET OUTLOOK
• 4.3 MARKET DRIVERS
• 4.4 MARKET RESTRAINTS
• 4.5 MARKET TRENDS
• 4.6 MARKET OPPORTUNITY
• 4.7 PORTER'S FIVE FORCES ANALYSIS
  • 4.7.1 THREAT OF NEW ENTRANTS
  • 4.7.2 BARGAINING POWER OF SUPPLIERS
  • 4.7.3 BARGAINING POWER OF BUYERS
  • 4.7.4 THREAT OF SUBSTITUTE BUSINESS MODELS
  • 4.7.5 COMPETITIVE RIVALRY OF EXISTING COMPETITORS
• 4.8 VALUE CHAIN ANALYSIS
• 4.9 PRICING ANALYSIS
• 4.10 MACROECONOMIC ANALYSIS

5 MARKET, BY ROBOT TYPE

• 5.1 OVERVIEW
• 5.2 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET: BASIS POINT SHARE (BPS) ANALYSIS, BY ROBOT TYPE
• 5.3 4-AXIS ROBOTS
• 5.4 5-AXIS ROBOTS
• 5.5 6-AXIS ROBOTS

6 MARKET, BY APPLICATION

• 6.1 OVERVIEW
• 6.2 GLOBAL ARTICULATED ROBOTS FOR INJECTION MOLDING MACHINE MARKET: BASIS POINT SHARE (BPS) ANALYSIS, BY APPLICATION
• 6.3 PART HANDLING
• 6.4 ASSEMBLY OPERATIONS
• 6.5 PACKAGING & PALLETIZING
• 6.6 QUALITY INSPECTION

7 MARKET, BY GEOGRAPHY

• 7.1 OVERVIEW
• 7.2 NORTH AMERICA
  • 7.2.1 U.S.
  • 7.2.2 CANADA
  • 7.2.3 MEXICO
• 7.3 EUROPE
  • 7.3.1 GERMANY
  • 7.3.2 U.K.
  • 7.3.3 FRANCE
  • 7.3.4 ITALY
  • 7.3.5 SPAIN
  • 7.3.6 REST OF EUROPE
• 7.4 ASIA PACIFIC
  • 7.4.1 CHINA
  • 7.4.2 JAPAN
  • 7.4.3 INDIA
  • 7.4.4 REST OF ASIA PACIFIC
• 7.5 LATIN AMERICA
  • 7.5.1 BRAZIL
  • 7.5.2 ARGENTINA
  • 7.5.3 REST OF LATIN AMERICA
• 7.6 MIDDLE EAST AND AFRICA
  • 7.6.1 UAE
  • 7.6.2 SAUDI ARABIA
  • 7.6.3 SOUTH AFRICA
  • 7.6.4 REST OF MIDDLE EAST AND AFRICA

8 COMPETITIVE LANDSCAPE

• 8.1 OVERVIEW
• 8.3 KEY DEVELOPMENT STRATEGIES
• 8.4 COMPANY REGIONAL FOOTPRINT
• 8.5 ACE MATRIX
  • 8.5.1 ACTIVE
  • 8.5.2 CUTTING EDGE
  • 8.5.3 EMERGING
  • 8.5.4 INNOVATORS

9 COMPANY PROFILES

• 9.1 OVERVIEW
• 9.2 YASKAWA ELECTRIC CORPORATION
• 9.3 FANUC CORPORATION
• 9.4 ABB LTD.
• 9.5 KAWASAKI HEAVY INDUSTRIES LTD.
• 9.6 KUKA AG
• 9.7 SEPRO GROUP
• 9.8 ENGEL AUSTRIA GMBH
• 9.9 WITTMANN BATTENFELD GROUP
• 9.10 STAR SEIKI CO., LTD.
• 9.11 HARMO CO., LTD.