The Global Construction Robots Market size is expected to reach $2.7 billion by 2028, rising at a market growth of 17.0% CAGR during the forecast period.
Construction robotics is the practice of carrying out construction tasks automatically with the aid of construction robots or automated construction equipment. It is used in functions including the construction and destruction of infrastructures for homes, businesses, and industries. Construction tasks now involve little or no human interaction due to construction robots. Building demolition and 3D printing of walls and other structures are also tasks construction robots perform.
Construction robots may also be employed for material handling tasks like moving materials vertically or horizontally on a construction site or putting bricks to make a wall. Moreover, automated drones monitor inaccessible building sites or need remote observation. In the construction business, a construction robot is a practical option.
It is primarily driven by robots' increased productivity and quality. Also, labor performed under challenging situations offers greater security and safety. For instance, when tearing down a building, demolition labor might injure the worker. But, a robot can be utilized in place of a human. Because of this, the operation is safer for the employees. Moreover, 3D printing is quickly embraced worldwide as a replacement for expensive specialized labor.
Also, the 3D printing technique uses the least amount of building materials possible, which is what is boosting the worldwide market for construction robots. However, the technology created and developed to run the equipment might be more expensive. In addition, the use of sophisticated sensors, software development, equipment integration with the software, and actual building work increases the cost of the system. These issues hence limit the market development for construction robots.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include ABB Ltd, Ekso Bionics Holdings, Inc., Autonomous Solutions, Inc., Husqvarna AB, Komatsu Ltd., Cyberdyne, Inc., FBR Ltd, Conjet AB (Gulfstream Nordic Holdings AB), MX3D B.V., and Brokk AB (Lifco AB).
Construction robotics is the practice of carrying out construction tasks automatically with the aid of construction robots or automated construction equipment. It is used in functions including the construction and destruction of infrastructures for homes, businesses, and industries. Construction tasks now involve little or no human interaction due to construction robots. Building demolition and 3D printing of walls and other structures are also tasks construction robots perform.
Construction robots may also be employed for material handling tasks like moving materials vertically or horizontally on a construction site or putting bricks to make a wall. Moreover, automated drones monitor inaccessible building sites or need remote observation. In the construction business, a construction robot is a practical option.
It is primarily driven by robots' increased productivity and quality. Also, labor performed under challenging situations offers greater security and safety. For instance, when tearing down a building, demolition labor might injure the worker. But, a robot can be utilized in place of a human. Because of this, the operation is safer for the employees. Moreover, 3D printing is quickly embraced worldwide as a replacement for expensive specialized labor.
Also, the 3D printing technique uses the least amount of building materials possible, which is what is boosting the worldwide market for construction robots. However, the technology created and developed to run the equipment might be more expensive. In addition, the use of sophisticated sensors, software development, equipment integration with the software, and actual building work increases the cost of the system. These issues hence limit the market development for construction robots.
COVID-19 Impact Analysis
The market for construction robots was affected during the COVID-19 epidemic, particularly during the lockdown phase. Reduced sales of new demolition robots, associated aftermarket services, and limits on building operations were the causes of the fall. The COVID-19 outbreak severely impacted construction, industrial, hospitality, and tourist businesses. Moreover, manufacturing activities were significantly curtailed or terminated altogether. Globally, supply networks for the construction and transportation industries were disrupted. This resulted in a decrease in the production of construction equipment and robots, thus affecting the market for construction robotics.Market Growth Factors
Increase in need for greater efficiency, productivity, and manufacturing flexibility
Robots have a lot of promise to improve production flexibility, productivity, and efficiency in the construction sector. It mainly entails robotic welding and material handling on construction sites, the production of modular homes, and the 3D printing of homes and bespoke buildings. By enhancing sustainability and minimizing environmental impact, construction robots make the sector safer and more profitable. By enhancing uniformity and quality, robotics and automation in the construction sector help cut waste. Using efficient building design, builders may eliminate waste from a project from the start thanks to automation.Governmental regulation for workplace safety
As a result, the government tries to protect the workers who are subjected to conditions that are so harsh and challenging. When workers go into tight areas, they risk dying from things like breathing in toxic fumes or being electrocuted, being caught in an explosion, or suffocating to death. Robots can help overcome safety adherence in these types of environments while also reducing the costs associated with guaranteeing worker safety in these types of settings. Due to this, the demand for construction robots is estimated to increase over the projection period.Market Restraining Factor
Expensive equipment and high setup costs
Construction robotics deployment is hampered by the high costs involved in purchasing and maintaining technology like construction robots. The cost of the procurement and the effectiveness of the technologies raises the manufacturer's total cost. As a result, only businesses and corporations with strong market competitiveness and turnover can afford these technologies. The market for construction robots is therefore constrained in its expansion. They may set barriers in the way of the construction robots market's profitable expansion over the forecast period.Function Outlook
Based on function, the construction robots market is segmented into demolition, bricklaying, material handling and others. In 2021, the material handling segment generated the largest revenue share in the construction robots market. An essential element influencing the development of this market is the substantial manufacturing of construction robots around the globe, notably in the Asia Pacific region. The market is anticipated to expand as a result of the increasing use of automation in the construction sector for tasks including demolition, rehabilitation, material handling, and printing applications.
End-Use Outlook
By end-use, the construction robots market is divided into industrial, residential and commercial. The commercial segment recorded a remarkable revenue share in the construction robots market in 2021. This is due to urbanization, investments in building maintenance and construction, rising economies, and other factors. Moving robots transport loads, which minimizes the need for human labor during building tasks.Type Outlook
On the basis of type, the construction robots market is fragmented into traditional robot, robotic arm and exoskeleton. The robotic arm segment acquired a substantial revenue share in the construction robots market in 2021. Innovative technologies have been used due to changes in the construction sector, including rapid construction, refined construction, and standardized design. To meet the growing demand, market participants in the robotic arm sector are continually creating and designing fresh, cutting-edge goods.Regional Outlook
Region wise, the construction robots market is analyzed across North America, Europe, Asia Pacific and LAMEA. The APAC region held the highest revenue share in the construction robots market in 2021. The main reason fueling the rise is the region's expanding use of robotic automation and equipment. Due to rising government investment in the building sector and escalating rivalry among market competitors, the area is predicted to see substantial development. Asia Pacific is a potential market because of its huge population and the associated rise in demand for residential and industrial infrastructure.The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include ABB Ltd, Ekso Bionics Holdings, Inc., Autonomous Solutions, Inc., Husqvarna AB, Komatsu Ltd., Cyberdyne, Inc., FBR Ltd, Conjet AB (Gulfstream Nordic Holdings AB), MX3D B.V., and Brokk AB (Lifco AB).
Scope of the Study
By Type
- Robotic Arm
- Traditional Robots
- Exoskeleton
By End-Use
- Industrial
- Residential
- Commercial
By Function
- Material Handling
- Demolition
- Bricklaying
- Others
By Geography
- North America
- US
- Canada
- Mexico
- Rest of North America
- Europe
- Germany
- UK
- France
- Russia
- Spain
- Italy
- Rest of Europe
- Asia Pacific
- China
- Japan
- India
- South Korea
- Singapore
- Malaysia
- Rest of Asia Pacific
- LAMEA
- Brazil
- Argentina
- UAE
- Saudi Arabia
- South Africa
- Nigeria
- Rest of LAMEA
Key Market Players
List of Companies Profiled in the Report:
- ABB Ltd
- Ekso Bionics Holdings, Inc.
- Autonomous Solutions, Inc.
- Husqvarna AB
- Komatsu Ltd.
- Cyberdyne, Inc.
- FBR Ltd
- Conjet AB (Gulfstream Nordic Holdings AB)
- MX3D B.V.
- Brokk AB (Lifco AB)
Unique Offerings
- Exhaustive coverage
- The highest number of market tables and figures
- Subscription-based model available
- Guaranteed best price
- Assured post sales research support with 10% customization free
Table of Contents
Chapter 1. Market Scope & Methodology1.1 Market Definition
1.2 Objectives
1.3 Market Scope
1.4 Segmentation
1.4.1 Global Construction Robots Market, by Type
1.4.2 Global Construction Robots Market, by End-Use
1.4.3 Global Construction Robots Market, by Function
1.4.4 Global Construction Robots Market, by Geography
1.5 Methodology for the research
Chapter 2. Market Overview
2.1 Introduction
2.1.1 Overview
2.1.1.1 Market Composition & Scenario
2.2 Key Factors Impacting the Market
2.2.1 Market Drivers
2.2.2 Market Restraints
Chapter 3. Global Construction Robots Market by Type
3.1 Global Robotic Arm Market by Region
3.2 Global Traditional Robots Market by Region
3.3 Global Exoskeleton Market by Region
Chapter 4. Global Construction Robots Market by End-use
4.1 Global Industrial Market by Region
4.2 Global Residential Market by Region
4.3 Global Commercial Market by Region
Chapter 5. Global Construction Robots Market by Function
5.1 Global Material Handling Market by Region
5.2 Global Demolition Market by Region
5.3 Global Bricklaying Market by Region
5.4 Global Others Market by Region
Chapter 6. Global Construction Robots Market by Region
6.1 North America Construction Robots Market
6.1.1 North America Construction Robots Market by Type
6.1.1.1 North America Robotic Arm Market by Country
6.1.1.2 North America Traditional Robots Market by Country
6.1.1.3 North America Exoskeleton Market by Country
6.1.2 North America Construction Robots Market by End-use
6.1.2.1 North America Industrial Market by Country
6.1.2.2 North America Residential Market by Country
6.1.2.3 North America Commercial Market by Country
6.1.3 North America Construction Robots Market by Function
6.1.3.1 North America Material Handling Market by Country
6.1.3.2 North America Demolition Market by Country
6.1.3.3 North America Bricklaying Market by Country
6.1.3.4 North America Others Market by Country
6.1.4 North America Construction Robots Market by Country
6.1.4.1 US Construction Robots Market
6.1.4.1.1 US Construction Robots Market by Type
6.1.4.1.2 US Construction Robots Market by End-use
6.1.4.1.3 US Construction Robots Market by Function
6.1.4.2 Canada Construction Robots Market
6.1.4.2.1 Canada Construction Robots Market by Type
6.1.4.2.2 Canada Construction Robots Market by End-use
6.1.4.2.3 Canada Construction Robots Market by Function
6.1.4.3 Mexico Construction Robots Market
6.1.4.3.1 Mexico Construction Robots Market by Type
6.1.4.3.2 Mexico Construction Robots Market by End-use
6.1.4.3.3 Mexico Construction Robots Market by Function
6.1.4.4 Rest of North America Construction Robots Market
6.1.4.4.1 Rest of North America Construction Robots Market by Type
6.1.4.4.2 Rest of North America Construction Robots Market by End-use
6.1.4.4.3 Rest of North America Construction Robots Market by Function
6.2 Europe Construction Robots Market
6.2.1 Europe Construction Robots Market by Type
6.2.1.1 Europe Robotic Arm Market by Country
6.2.1.2 Europe Traditional Robots Market by Country
6.2.1.3 Europe Exoskeleton Market by Country
6.2.2 Europe Construction Robots Market by End-use
6.2.2.1 Europe Industrial Market by Country
6.2.2.2 Europe Residential Market by Country
6.2.2.3 Europe Commercial Market by Country
6.2.3 Europe Construction Robots Market by Function
6.2.3.1 Europe Material Handling Market by Country
6.2.3.2 Europe Demolition Market by Country
6.2.3.3 Europe Bricklaying Market by Country
6.2.3.4 Europe Others Market by Country
6.2.4 Europe Construction Robots Market by Country
6.2.4.1 Germany Construction Robots Market
6.2.4.1.1 Germany Construction Robots Market by Type
6.2.4.1.2 Germany Construction Robots Market by End-use
6.2.4.1.3 Germany Construction Robots Market by Function
6.2.4.2 UK Construction Robots Market
6.2.4.2.1 UK Construction Robots Market by Type
6.2.4.2.2 UK Construction Robots Market by End-use
6.2.4.2.3 UK Construction Robots Market by Function
6.2.4.3 France Construction Robots Market
6.2.4.3.1 France Construction Robots Market by Type
6.2.4.3.2 France Construction Robots Market by End-use
6.2.4.3.3 France Construction Robots Market by Function
6.2.4.4 Russia Construction Robots Market
6.2.4.4.1 Russia Construction Robots Market by Type
6.2.4.4.2 Russia Construction Robots Market by End-use
6.2.4.4.3 Russia Construction Robots Market by Function
6.2.4.5 Spain Construction Robots Market
6.2.4.5.1 Spain Construction Robots Market by Type
6.2.4.5.2 Spain Construction Robots Market by End-use
6.2.4.5.3 Spain Construction Robots Market by Function
6.2.4.6 Italy Construction Robots Market
6.2.4.6.1 Italy Construction Robots Market by Type
6.2.4.6.2 Italy Construction Robots Market by End-use
6.2.4.6.3 Italy Construction Robots Market by Function
6.2.4.7 Rest of Europe Construction Robots Market
6.2.4.7.1 Rest of Europe Construction Robots Market by Type
6.2.4.7.2 Rest of Europe Construction Robots Market by End-use
6.2.4.7.3 Rest of Europe Construction Robots Market by Function
6.3 Asia Pacific Construction Robots Market
6.3.1 Asia Pacific Construction Robots Market by Type
6.3.1.1 Asia Pacific Robotic Arm Market by Country
6.3.1.2 Asia Pacific Traditional Robots Market by Country
6.3.1.3 Asia Pacific Exoskeleton Market by Country
6.3.2 Asia Pacific Construction Robots Market by End-use
6.3.2.1 Asia Pacific Industrial Market by Country
6.3.2.2 Asia Pacific Residential Market by Country
6.3.2.3 Asia Pacific Commercial Market by Country
6.3.3 Asia Pacific Construction Robots Market by Function
6.3.3.1 Asia Pacific Material Handling Market by Country
6.3.3.2 Asia Pacific Demolition Market by Country
6.3.3.3 Asia Pacific Bricklaying Market by Country
6.3.3.4 Asia Pacific Others Market by Country
6.3.4 Asia Pacific Construction Robots Market by Country
6.3.4.1 China Construction Robots Market
6.3.4.1.1 China Construction Robots Market by Type
6.3.4.1.2 China Construction Robots Market by End-use
6.3.4.1.3 China Construction Robots Market by Function
6.3.4.2 Japan Construction Robots Market
6.3.4.2.1 Japan Construction Robots Market by Type
6.3.4.2.2 Japan Construction Robots Market by End-use
6.3.4.2.3 Japan Construction Robots Market by Function
6.3.4.3 India Construction Robots Market
6.3.4.3.1 India Construction Robots Market by Type
6.3.4.3.2 India Construction Robots Market by End-use
6.3.4.3.3 India Construction Robots Market by Function
6.3.4.4 South Korea Construction Robots Market
6.3.4.4.1 South Korea Construction Robots Market by Type
6.3.4.4.2 South Korea Construction Robots Market by End-use
6.3.4.4.3 South Korea Construction Robots Market by Function
6.3.4.5 Singapore Construction Robots Market
6.3.4.5.1 Singapore Construction Robots Market by Type
6.3.4.5.2 Singapore Construction Robots Market by End-use
6.3.4.5.3 Singapore Construction Robots Market by Function
6.3.4.6 Malaysia Construction Robots Market
6.3.4.6.1 Malaysia Construction Robots Market by Type
6.3.4.6.2 Malaysia Construction Robots Market by End-use
6.3.4.6.3 Malaysia Construction Robots Market by Function
6.3.4.7 Rest of Asia Pacific Construction Robots Market
6.3.4.7.1 Rest of Asia Pacific Construction Robots Market by Type
6.3.4.7.2 Rest of Asia Pacific Construction Robots Market by End-use
6.3.4.7.3 Rest of Asia Pacific Construction Robots Market by Function
6.4 LAMEA Construction Robots Market
6.4.1 LAMEA Construction Robots Market by Type
6.4.1.1 LAMEA Robotic Arm Market by Country
6.4.1.2 LAMEA Traditional Robots Market by Country
6.4.1.3 LAMEA Exoskeleton Market by Country
6.4.2 LAMEA Construction Robots Market by End-use
6.4.2.1 LAMEA Industrial Market by Country
6.4.2.2 LAMEA Residential Market by Country
6.4.2.3 LAMEA Commercial Market by Country
6.4.3 LAMEA Construction Robots Market by Function
6.4.3.1 LAMEA Material Handling Market by Country
6.4.3.2 LAMEA Demolition Market by Country
6.4.3.3 LAMEA Bricklaying Market by Country
6.4.3.4 LAMEA Others Market by Country
6.4.4 LAMEA Construction Robots Market by Country
6.4.4.1 Brazil Construction Robots Market
6.4.4.1.1 Brazil Construction Robots Market by Type
6.4.4.1.2 Brazil Construction Robots Market by End-use
6.4.4.1.3 Brazil Construction Robots Market by Function
6.4.4.2 Argentina Construction Robots Market
6.4.4.2.1 Argentina Construction Robots Market by Type
6.4.4.2.2 Argentina Construction Robots Market by End-use
6.4.4.2.3 Argentina Construction Robots Market by Function
6.4.4.3 UAE Construction Robots Market
6.4.4.3.1 UAE Construction Robots Market by Type
6.4.4.3.2 UAE Construction Robots Market by End-use
6.4.4.3.3 UAE Construction Robots Market by Function
6.4.4.4 Saudi Arabia Construction Robots Market
6.4.4.4.1 Saudi Arabia Construction Robots Market by Type
6.4.4.4.2 Saudi Arabia Construction Robots Market by End-use
6.4.4.4.3 Saudi Arabia Construction Robots Market by Function
6.4.4.5 South Africa Construction Robots Market
6.4.4.5.1 South Africa Construction Robots Market by Type
6.4.4.5.2 South Africa Construction Robots Market by End-use
6.4.4.5.3 South Africa Construction Robots Market by Function
6.4.4.6 Nigeria Construction Robots Market
6.4.4.6.1 Nigeria Construction Robots Market by Type
6.4.4.6.2 Nigeria Construction Robots Market by End-use
6.4.4.6.3 Nigeria Construction Robots Market by Function
6.4.4.7 Rest of LAMEA Construction Robots Market
6.4.4.7.1 Rest of LAMEA Construction Robots Market by Type
6.4.4.7.2 Rest of LAMEA Construction Robots Market by End-use
6.4.4.7.3 Rest of LAMEA Construction Robots Market by Function
Chapter 7. Company Profiles
7.1 ABB Ltd
7.1.1 Company Overview
7.1.2 Financial Analysis
7.1.3 Segmental and Regional Analysis
7.1.4 Research & Development Expense
7.1.5 Recent strategies and developments:
7.1.5.1 Partnerships, Collaborations, and Agreements:
7.1.5.2 Acquisition and Mergers:
7.1.6 SWOT Analysis
7.2 Brokk AB (Lifco AB)
7.2.1 Company Overview
7.2.2 Financial Analysis
7.2.3 Segmental and Regional Analysis
7.2.4 Research & Development Expenses
7.2.5 Recent strategies and developments:
7.2.5.1 Product Launches and Product Expansions:
7.3 Husqvarna AB
7.3.1 Company Overview
7.3.2 Financial Analysis
7.3.3 Segmental and Regional Analysis
7.3.4 Research & Development Expense
7.3.5 Recent strategies and developments:
7.3.5.1 Product Launches and Product Expansions:
7.4 Ekso Bionics Holdings, Inc.
7.4.1 Company Overview
7.4.2 Financial Analysis
7.4.3 Segmental and Regional Analysis
7.4.4 Research & Development Expenses
7.5 Komatsu Ltd.
7.5.1 Company Overview
7.5.2 Financial Analysis
7.5.3 Segmental and Regional Analysis
7.6 Cyberdyne, Inc.
7.6.1 Company Overview
7.6.2 Financial Analysis
7.6.3 Research & Development Expenses
7.7 FBR Ltd
7.7.1 Company Overview
7.7.2 Financial Analysis
7.8 Conjet AB (Gulfstream Nordic Holdings AB)
7.8.1 Company Overview
7.8.2 Recent strategies and developments:
7.8.2.1 Partnerships, Collaborations, and Agreements:
7.9 MX3D B.V.
7.9.1 Company Overview
7.10. Autonomous Solutions, Inc.
7.10.1 Company Overview
Companies Mentioned
- ABB Ltd
- Ekso Bionics Holdings, Inc.
- Autonomous Solutions, Inc.
- Husqvarna AB
- Komatsu Ltd.
- Cyberdyne, Inc.
- FBR Ltd
- Conjet AB (Gulfstream Nordic Holdings AB)
- MX3D B.V.
- Brokk AB (Lifco AB)
Methodology
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