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PUBLISHER: DataM Intelligence | PRODUCT CODE: 1423517

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PUBLISHER: DataM Intelligence | PRODUCT CODE: 1423517

Global Automatic Packaging Robot Market - 2024-2031

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Overview

Global Automatic Packaging Robot Market reached US$ 4.0 billion in 2023 and is expected to reach US$ 10.2 billion by 2031, growing with a CAGR of 12.4% during the forecast period 2024-2031.

The application of automatic packaging robots is being fueled by the increasing need for increased productivity and production efficiency across a range of sectors. Reduced cycle times and increased production rates are the results of these robots' ability to operate continuously and dependably. The adoption of automated packaging robots is crucial for attaining maximum production efficiency as firms compete to satisfy customer needs and maintain their competitiveness in the global market.

The market for separate packaging robots is being influenced by the growth of e-commerce and alterations in customer preferences. The rise of online sales has increased the demand for effective and adaptable packaging options. Automatic packaging robots are vital to fulfilling the packaging needs of the e-commerce sector because they provide the speed and flexibility demanded to handle a range of items in some package variations.

North America is among the growing regions in the global automatic packaging robot market covering more than 1/3rd of the market. The demand for sophisticated automation solutions has risen as a result of the region's strong emphasis on technical innovation and technological adoption. Companies in North America have been investing in automatic packaging robots due to the need for increased production capacities, lower labor costs and higher operational efficiency; this contributed to growth in the market.

Dynamics

Rising Demand for Efficiency and Productivity

The growing demand for increased productivity and efficiency in industrial processes is a factor driving the global market for automatic packaging robots. From palletizing to pick-and-place positions, automatic packaging robots provide uniformity, speed and accuracy in a variety of packaging applications. The use of these robots helps firms optimize their processes, shorten cycle times and boost total production output as they work to fulfill the growing demand for packaged products.

For Instance, in 2023, Bobst Group has acquired 70% of the shares in Ducker Robotics s.r.l., Momo, Italy. In the corrugated board business, Ducker Robotics is the world's leader in the use of robots for loading and palletizing and it also provides prospects in the folding carton sector. Ducker Robotics' present management group continues in its current capacity. The strategic agreement is a component of BOBST's industry vision for the packaging sector, which envisions a connected and fully automated packaging manufacturing line.

Rapid Technological Developments in AI and Robotics

Developments in robotics and artificial intelligence are driving the global market for automatic packaging robots. The integration of modern sensors, vision systems and machine learning techniques enhances the intelligence and adaptability of robotic systems. The days, autonomous packaging robots may operate in a collaborative environment with humans and other robots, process a large variety of items efficiently and adapt to changes in production demands.

For Instance, in 2023, OMRON introduced a collaborative robot palletizing solution for more production flexibility and less programming effort. The PLC-based system has a dedicated Palletizing Function Block and is based on the NX1 series modular machine controller. It enables collaborative robots to operate alongside human operators in small locations without the need for extra safety barriers.

High Costs of the Initial Investment

The costly initial expenses of buying and deploying robotic systems represent a significant obstacle to the global market for automatic packaging robots. Purchasing robotic machinery, integrating it into current manufacturing lines and giving the staff the required training can come with hefty upfront costs.

The design could prove difficult for medium-sized enterprises (SMEs) to justify these upfront expenses, which would prevent them from implementing automatic packaging robots. Furthermore, businesses could be cautious about committing large sums of money, particularly in hazy economic times, which could impede the expansion of the industry in its entirety.

Cost of Maintenance and System Integration

The complexity involved in incorporating automated packing robots into existing production processes. Expertise is required so that robots and other machines integrate effectively and are compatible with different software systems. It may be difficult for companies to locate skilled workers who can handle the complexities of system integration and robot programming.

Furthermore, these complex robotic systems may need a lot of continuous maintenance, including updates, troubleshooting and repairs. The difficulty of operating and maintaining these systems might discourage some companies from adopting autonomous packaging robots completely, especially those without specialized robotics departments. The would restrict the market penetration overall.

Segment Analysis

The global automatic packaging robot market is segmented based on type, gripping technology, application, end-user and region.

Rising Demand for Cartesian Robots in the Automatic Packaging Robots Industry

The cartesian robots segment is among the growing regions in the global automatic packaging robot market covering more than 1/3rd of the market. The primary driver driving Cartesian robot growth is their simplicity of programming and integration. Many industries and applications can use these robots because of their well-known ease of programming and design.

In addition, cartesian robots may be quickly used in packing lines by manufacturers due to their simple setup and programming, which improves overall operational efficiency and decreases downtime. Due to their adaptability and ease of use, Cartesian robots are positioned to play a major role in the growth of the automated packaging robots market, as businesses globally continue to embrace automation as a means of increasing production and reducing costs.

Geographical Penetration

Increasing Demand for Robotics and Automation in Manufacturing Operations in North America

North America has been a dominant force in the global automatic packaging robot market driven by the growing demand for robotics and automation in industrial processes has led to an increase in the usage of automatic packaging robots. Technological developments, such as incorporating machine learning and artificial intelligence (AI) into robotic systems, have been crucial to the market's expansion.

The food and beverage, pharmaceutical and consumer products industries in North America is actively seeking novel solutions to enhance production efficiency, reduce labor costs and ensure consistent product quality. The requirement for higher throughput and accuracy in packing processes has prompted businesses to invest in automated solutions, which has fueled the market's overall growth.

For instance, in 2023, Clearpath Robotics, a Canadian operation that produces autonomous robotics particularly autonomous mobile robots or AMRs for use in industrial settings, was acquired by Rockwell Automation. The industrial division Otto Motors, which supplies AMRs and the research division with the same name, Clearpath Robotics, are included in the transaction. The Intelligent Devices operational section of Rockwell is the supervisor of both divisions.

For Instance, in 2023, The packaging business has grown more flexible and responsive as a consequence of growing investment in intelligent robotic solutions in North America that can adapt to shifting production demands. As long as companies continue to place a premium on efficiency and innovation, the development of technically advanced automatic packaging robots is anticipated to significantly contribute to market expansion in the region.

COVID-19 Impact Analysis

Supply chain interruptions were among the most noticeable effects right away. Movement restrictions, lockdowns and temporary closures of manufacturing facilities caused production delays and impeded timely component supply, which had an impact on the autonomous packaging robot manufacturing process as a whole. Furthermore, the pandemic's economic effects affected capital spending and investment choices in a variety of businesses.

In addition, several businesses could have rescheduled or reduced their intentions to allocate funds toward automation technology, such as automated packaging robots. On the other side, during lockdowns, the demand for some items may have surged, especially in the food and e-commerce sectors, which may have led to a need for automation solutions in particular packaging industry segments.

Several businesses had financial difficulties and uncertainty over the extent and length of the pandemic encouraged frugal expenditure. Additionally, the pandemic increased the introduction of industry-wide technology and tendencies toward greater automation.

As the demand for effective and frictionless production processes increased, the automation sector saw potential. Businesses that could provide robust and flexible manufacturing process solutions, such as automatic packaging robots, found themselves in a position to meet the changing demands of sectors seeking to improve their operational flexibility and efficiency in the face of the pandemic's challenges.

Russia-Ukraine War Impact Analysis

As the conflict between Russia and Ukraine worsens or drags on longer, it may broadly affect the world economy. Supply chain disruptions heightened geopolitical tensions and economic sanctions may also increase uncertainty and have an impact on a range of businesses, including robotics and automation. Businesses that manufacture and export automatic packaging robots may need help with production delays, higher expenses or interruptions in the distribution network.

The is especially true for businesses with operations or supply chains in areas that are impacted. Furthermore, by influencing investor confidence and general economic stability, the war may have an impact on market dynamics. Businesses may take a more cautious stance during periods of geopolitical volatility, which might postpone capital expenditure and investment choices.

The could have an impact on the demand for automation solutions, such as automatic packaging robots. The length and intensity of the fight, as well as the speed at which geopolitical tensions are eased, will determine the magnitude of the damage. Additional challenges of trade restrictions and regulatory adjustments can also be brought about by the war.

By Type

  • Cartesian Robots
  • SCARA Robots
  • Delta Robots
  • Collaborative Robots
  • Others

By Gripping Technology

  • Vacuum
  • Mechanical
  • Magnetic
  • Soft Grippers
  • Others

By Application

  • Palletizing
  • Case Packing
  • Pick and Place
  • Labeling
  • Inspection
  • Cartoning
  • Filling
  • Others

By End-User

  • Food and Beverage
  • Pharmaceuticals and Healthcare
  • Consumer Goods
  • Automotive
  • E-commerce and Logistics
  • Others

By Region

  • North America
    • U.S.
    • Canada
    • Mexico
  • Europe
    • Germany
    • UK
    • France
    • Italy
    • Russia
    • Rest of Europe
  • South America
    • Brazil
    • Argentina
    • Rest of South America
  • Asia-Pacific
    • China
    • India
    • Japan
    • Australia
    • Rest of Asia-Pacific
  • Middle East and Africa

Key Developments

  • On February 24, 2021, ABB expanded its collaborative robot (cobot) offerings with the introduction of the GoFa and SWIFTI cobot families. The new additions, featuring higher payloads and speeds, complement ABB's existing cobot lineup, including YuMi and Single Arm YuMi. The strengthened and faster cobots are strategically positioned to accelerate ABB's presence in key sectors like packaging, electronics, healthcare, consumer goods, logistics and food and beverage, meeting the increasing demand for automation solutions across diverse industries.

Competitive Landscape

The major global players in the market include ABB Group, Fanuc Corporation, KUKA AG, Yaskawa Electric Corporation, Universal Robots, Mitsubishi Electric Corporation, Schneider Electric SE, Kawasaki Heavy Industries Ltd., Denso Corporation and Omron Corporation.

Why Purchase the Report?

  • To visualize the global automatic packaging robot market segmentation based on type, gripping technology, application, end-user and region, as well as understand key commercial assets and players.
  • Identify commercial opportunities by analyzing trends and co-development.
  • Excel data sheet with numerous data points of automatic packaging robot market-level with all segments.
  • PDF report consists of a comprehensive analysis after exhaustive qualitative interviews and an in-depth study.
  • Product mapping available as Excel consisting of key products of all the major players.

The global automatic packaging robot market report would provide approximately 70 tables, 74 figures and 199 Pages.

Target Audience 2024

  • Manufacturers/ Buyers
  • Industry Investors/Investment Bankers
  • Research Professionals
  • Emerging Companies
Product Code: ICT7945

Table of Contents

1. Methodology and Scope

  • 1.1. Research Methodology
  • 1.2. Research Objective and Scope of the Report

2. Definition and Overview

3. Executive Summary

  • 3.1. Snippet by Type
  • 3.2. Snippet by Gripping Technology
  • 3.3. Snippet by Application
  • 3.4. Snippet by End-User
  • 3.5. Snippet by Region

4. Dynamics

  • 4.1. Impacting Factors
    • 4.1.1. Drivers
      • 4.1.1.1. Growing Demand for Productivity and Efficiency
      • 4.1.1.2. Rapid Technological Developments in AI and Robotics
    • 4.1.2. Restraints
      • 4.1.2.1. High Costs of the Initial Investment
      • 4.1.2.2. Cost of Maintenance and System Integration
    • 4.1.3. Opportunity
    • 4.1.4. Impact Analysis

5. Industry Analysis

  • 5.1. Porter's Five Force Analysis
  • 5.2. Supply Chain Analysis
  • 5.3. Pricing Analysis
  • 5.4. Regulatory Analysis
  • 5.5. Russia-Ukraine War Impact Analysis
  • 5.6. DMI Opinion

6. COVID-19 Analysis

  • 6.1. Analysis of COVID-19
    • 6.1.1. Scenario Before COVID
    • 6.1.2. Scenario During COVID
    • 6.1.3. Scenario Post COVID
  • 6.2. Pricing Dynamics Amid COVID-19
  • 6.3. Demand-Supply Spectrum
  • 6.4. Government Initiatives Related to the Market During Pandemic
  • 6.5. Manufacturers Strategic Initiatives
  • 6.6. Conclusion

7. By Type

  • 7.1. Introduction
    • 7.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 7.1.2. Market Attractiveness Index, By Type
  • 7.2. Cartesian Robots*
    • 7.2.1. Introduction
    • 7.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 7.3. SCARA Robots
  • 7.4. Delta Robots
  • 7.5. Collaborative Robots
  • 7.6. Others

8. By Gripping Technology

  • 8.1. Introduction
    • 8.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Gripping Technology
    • 8.1.2. Market Attractiveness Index, By Gripping Technology
  • 8.2. Vacuum*
    • 8.2.1. Introduction
    • 8.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 8.3. Mechanical
  • 8.4. Magnetic
  • 8.5. Soft Grippers
  • 8.6. Others

9. By Application

  • 9.1. Introduction
    • 9.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 9.1.2. Market Attractiveness Index, By Application
  • 9.2. Palletizing*
    • 9.2.1. Introduction
    • 9.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 9.3. Case Packing
  • 9.4. Pick and Place
  • 9.5. Labeling
  • 9.6. Inspection
  • 9.7. Cartoning
  • 9.8. Filling
  • 9.9. Others

10. By End-User

  • 10.1. Introduction
    • 10.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User
    • 10.1.2. Market Attractiveness Index, By End-User
  • 10.2. Food and Beverages*
    • 10.2.1. Introduction
    • 10.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 10.3. Pharmaceuticals and Healthcare
  • 10.4. Consumer Goods
  • 10.5. Automotive
  • 10.6. E-commerce and Logistics
  • 10.7. Others

11. By Region

  • 11.1. Introduction
    • 11.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Region
    • 11.1.2. Market Attractiveness Index, By Region
  • 11.2. North America
    • 11.2.1. Introduction
    • 11.2.2. Key Region-Specific Dynamics
    • 11.2.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 11.2.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Gripping Technology
    • 11.2.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.2.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User
    • 11.2.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.2.7.1. U.S.
      • 11.2.7.2. Canada
      • 11.2.7.3. Mexico
  • 11.3. Europe
    • 11.3.1. Introduction
    • 11.3.2. Key Region-Specific Dynamics
    • 11.3.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 11.3.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Gripping Technology
    • 11.3.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.3.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User
    • 11.3.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.3.7.1. Germany
      • 11.3.7.2. UK
      • 11.3.7.3. France
      • 11.3.7.4. Russia
      • 11.3.7.5. Spain
      • 11.3.7.6. Rest of Europe
  • 11.4. South America
    • 11.4.1. Introduction
    • 11.4.2. Key Region-Specific Dynamics
    • 11.4.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 11.4.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Gripping Technology
    • 11.4.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.4.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User
    • 11.4.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.4.7.1. Brazil
      • 11.4.7.2. Argentina
      • 11.4.7.3. Rest of South America
  • 11.5. Asia-Pacific
    • 11.5.1. Introduction
    • 11.5.2. Key Region-Specific Dynamics
    • 11.5.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 11.5.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Gripping Technology
    • 11.5.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.5.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User
    • 11.5.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.5.7.1. China
      • 11.5.7.2. India
      • 11.5.7.3. Japan
      • 11.5.7.4. Australia
      • 11.5.7.5. Rest of Asia-Pacific
  • 11.6. Middle East and Africa
    • 11.6.1. Introduction
    • 11.6.2. Key Region-Specific Dynamics
    • 11.6.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
    • 11.6.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Gripping Technology
    • 11.6.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.6.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User

12. Competitive Landscape

  • 12.1. Competitive Scenario
  • 12.2. Market Positioning/Share Analysis
  • 12.3. Mergers and Acquisitions Analysis

13. Company Profiles

  • 13.1. ABB Group*
    • 13.1.1. Company Overview
    • 13.1.2. Product Portfolio and Description
    • 13.1.3. Financial Overview
    • 13.1.4. Key Developments
  • 13.2. Fanuc Corporation
  • 13.3. KUKA AG
  • 13.4. Yaskawa Electric Corporation
  • 13.5. Universal Robots
  • 13.6. Mitsubishi Electric Corporation
  • 13.7. Schneider Electric SE
  • 13.8. Kawasaki Heavy Industries Ltd.
  • 13.9. Denso Corporation
  • 13.10. Omron Corporation

LIST NOT EXHAUSTIVE

14. Appendix

  • 14.1. About Us and Services
  • 14.2. Contact Us
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