市場調查報告書
商品編碼
1466653
建築機器人市場:按技術、自動化、功能和應用分類 - 2024-2030 年全球預測Construction Robots Market by Technology (Drones, Humanoid Laborers, Industrial Robots), Automation (Fully Autonomous, Semi-Autonomous), Function, Application - Global Forecast 2024-2030 |
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預計2023年建築機器人市場規模為1.9633億美元,預計2024年將達2.318億美元,2030年將達到7.4956億美元,複合年成長率為21.09%。
建築機器人是自主或半自動機器,旨在執行建築行業的各種任務。這些機器人配備了感測器、致動器和人工智慧,用於特定的建築相關功能。使用建築機器人旨在提高效率、提高安全性並解決建築業的勞動力短缺問題。在建築工地引入機器人和自動化可以提高員工的安全,並實現砌磚、焊接鋼骨和綁紮鋼筋等任務。建築機器人配備了技術先進的攝影機、馬達、感測器和微控制器,使它們更有效率。建築機器人市場受到人工智慧(AI)、機器學習和物聯網(IoT)整合等快速技術進步的推動,這些技術使機器人更加自主、高效,並且能夠執行複雜的任務。然而,建築機器人的高成本和技術純熟勞工的有限阻礙了其市場推廣。政府和市場相關人員正在加強投資和融資力度,以減少因複雜和危險的施工程序而造成的人為干預,為市場成長創造機會。
主要市場統計 | |
---|---|
基準年[2023] | 1.9633億美元 |
預測年份 [2024] | 2.318 億美元 |
預測年份 [2030] | 74956萬美元 |
複合年成長率(%) | 21.09% |
工業機器人的潛在需求提高技術生產力
無人機可以遠端飛行並提供建築計劃的真實更新,從而在無需人工的情況下徹底改變計劃生命週期。人形工人是設計為具有類人外觀和特徵的機器人或機器人系統,旨在執行傳統上由人類工人執行的業務。工業機器人,如關節型機器人、直角座標機器人、協作機器人等,廣泛應用於建築工地。關節式機器人是具有與人類手臂相似的關節的自動化機器,用於建築製造,如焊接、組裝、密封、物料輸送、拾取、切割、噴漆和噴塗。此外,自動駕駛工程車輛用途廣泛,可執行平整地面、推動重物、挖地基、挖溝渠和裝載卡車等任務。自動施工車輛可以透過減少施工機械操作員的事故來提供更安全的工作場所。
自動化:擴大全自動建築機器人的使用
建築機器人是旨在協助建築工地執行各種任務的自動化機器。許多可用於在建築工地挖掘和平整泥土的自動推土機、挖土機、物料搬運車輛和運輸車輛都是半自動的。半自動建築機器人市場包括仍需要一定程度的人類控制和監督的機器和系統。該技術提供了增強功能,例如遠端控制、引導系統和與人類一起工作的協作機器人(cobots),作為實現完全自主的中間步驟。相比之下,完全自主的機器人是智慧機器,可以獨立執行任務並在其環境中運行,無需人工控制或干預。完全自主的機器人可以在無需人工干預的情況下執行各種任務,包括砌磚、混凝土澆築、結構組裝和檢查。
特點:大量採用3D列印機器人製造複雜零件和結構
3D列印機器人是指搭載積層製造技術的機器人系統,俗稱3D列印。這些機器人被設計為使用各種材料自主或半自動逐層建造3D物體。砌磚機器人透過測量和追蹤建築領域的速度、GPS、安全性、坍落度和砂漿質量,實現磚、砌塊和砂漿住宅建造的自動化。這些砌磚機器人可管理磚塊的自動裝載、切割、佈線和放置,並使用 CAD 完成端對端砌磚。拆除機器人在建設產業中使用各種臂端工具(例如破碎機、破碎機、鑽頭和鏟鬥)來拆除建築材料。在拆除工作中引入建築機器人可以確保人身安全並避免受傷風險。此外,焊接機器人是自動焊接的高度先進版本,機器人技術可以實現精確、快速的完成、最少的浪費和高度安全的施工。
應用 建築機器人在商業建築施工中利用率高
機器人廣泛應用於商業建築、公共基礎設施和住宅等領域,以取代人類在危險或不衛生的環境中執行危險任務。建築機器人擴大應用於商業建築計劃中,以提高效率、安全性和品質。機器人可以執行砌磚、混凝土澆築和乾牆安裝等重複性任務,加快施工過程並最大限度地減少人為錯誤。機器人在橋樑、道路、隧道等公共基礎設施的開發和維護中發揮重要作用。它支援對人類來說危險和困難的任務,例如高風險環境中的焊接和高空作業。在住宅領域,我們透過多種方式簡化了施工流程,從基礎工作到屋頂安裝。建築機器人可以幫助預製住宅構件並在現場組裝,減少建築廢棄物並提高準確性。
區域洞察
由於工業部門的成熟以及建築機器人在商業建築、住宅和公共基礎設施等各個領域的應用不斷增加,美洲的建築機器人市場高度發展。由於都市化程度的提高和先進建築資源的廣泛使用,歐洲、中東和非洲和亞太地區的建設產業正在經歷顯著的發展。歐洲市場的供應商正在合作並擴大其設施,以滿足由於都市化加快和建設產業自動化程度提高而對建築機器人日益成長的需求。此外,政府正在專注於旨在為社會帶來技術變革的研發和創新計劃,例如引入人機協作來支援員工的手動和移動任務,建築機器人的潛在需求巨大。歐洲、中東和非洲和亞太地區的國家正在投資啟動機器人研究和資助計劃,以支持各個工業部門的研究和開發,預計工業部門的建築機器人採用率很高。
FPNV定位矩陣
FPNV定位矩陣對於評估建築機器人市場至關重要。我們檢視與業務策略和產品滿意度相關的關鍵指標,以對供應商進行全面評估。這種深入的分析使用戶能夠根據自己的要求做出明智的決策。根據評估,供應商被分為四個成功程度不同的像限:前沿(F)、探路者(P)、利基(N)和重要(V)。
市場佔有率分析
市場佔有率分析是一個綜合工具,可以對建築機器人市場供應商的現狀進行深入而深入的研究。全面比較和分析供應商在整體收益、基本客群和其他關鍵指標方面的貢獻,以便更好地了解公司的績效及其在爭奪市場佔有率時面臨的挑戰。此外,該分析還提供了對該行業競爭特徵的寶貴見解,包括在研究基準年觀察到的累積、分散主導地位和合併特徵等因素。這種詳細程度的提高使供應商能夠做出更明智的決策並制定有效的策略,從而在市場上獲得競爭優勢。
1. 市場滲透率:提供有關主要企業所服務的市場的全面資訊。
2. 市場開拓:我們深入研究利潤豐厚的新興市場,並分析其在成熟細分市場的滲透率。
3. 市場多元化:提供有關新產品發布、開拓地區、最新發展和投資的詳細資訊。
4.競爭力評估與資訊:對主要企業的市場佔有率、策略、產品、認證、監管狀況、專利狀況、製造能力等進行全面評估。
5. 產品開發與創新:提供對未來技術、研發活動和突破性產品開發的見解。
1.建築機器人市場規模及預測如何?
2.在建築機器人市場的預測期間內,有哪些產品、細分市場、應用和領域需要考慮投資?
3.建築機器人市場的技術趨勢和法規結構是什麼?
4.建築機器人市場主要廠商的市場佔有率如何?
5.進入建築機器人市場合適的型態和策略手段是什麼?
[182 Pages Report] The Construction Robots Market size was estimated at USD 196.33 million in 2023 and expected to reach USD 231.80 million in 2024, at a CAGR 21.09% to reach USD 749.56 million by 2030.
Construction robots are autonomous or semi-autonomous machines designed to perform various tasks within the construction industry. These robots have sensors, actuators, and artificial intelligence for specific construction-related functions. Using construction robots aims to improve efficiency, increase safety, and address labor shortages in the construction sector. Implementing robotics and automation on building sites allows for better security for employees and enables them to perform tasks such as laying bricks, welding steel, and tying rebar. Construction robots are equipped with technologically advanced cameras, motors, sensors, and microcontrollers, which increases robotic efficiency. The market for construction robots is experiencing a robust growth trajectory, propelled by rapid technological advancements such as artificial intelligence (AI), machine learning, and Internet of Things (IoT) integration, making robots more autonomous and efficient, enabling them to take on complex tasks. However, the high cost of construction robots and limited skilled workers hinders market adoption. Governments and market players are expanding their investments and funding activities to reduce human interference from complex and dangerous construction procedures, creating opportunities for market growth.
KEY MARKET STATISTICS | |
---|---|
Base Year [2023] | USD 196.33 million |
Estimated Year [2024] | USD 231.80 million |
Forecast Year [2030] | USD 749.56 million |
CAGR (%) | 21.09% |
Technology: Potential demand for industrial robots to improve productivity
The drones are remotely controlled with aerial capabilities that provide real-life updates of a construction project, revolutionizing the project's life cycle without using human laborers. Humanoid laborers refer to robots or robotic systems designed with a humanoid appearance and characteristics, intending to complete duties traditionally carried out by human laborers. Industrial robots such as articulated, cartesian, and collaborative robots are widely used on construction sites. Articulated robots are automated machines with joints resembling the human arm used in welding, assembling, sealing, material handling, picking, cutting, painting, and spraying in construction manufacturing. Furthermore, self-driving construction vehicles are versatile and can perform leveling the ground, pushing heavy objects, foundation excavation, trenching, and truck loading jobs. Autonomous construction vehicles can provide a safer job site by reducing construction equipment operators' accidents.
Automation: Proliferating utilization of fully autonomous construction robots
Construction robots are automated machines designed to assist with various tasks on construction sites. Most autonomous dozers, excavators, load carriers, and haul trucks that can be used for excavating and grading soil on construction sites are semi-autonomous machines. The semi-autonomous construction robot market includes machinery and systems that still require a certain level of human control or supervision. This technology acts as an intermediary step towards full autonomy, providing enhancements such as remote control, guided systems, and collaborative robots (cobots) that work alongside human counterparts. In contrast, fully autonomous robots are intelligent smart machines that can independently perform tasks and operate in an environment without human control or intervention. Fully autonomous robots can perform various tasks without human intervention, including but not limited to bricklaying, concrete dispensing, structural assembly, and inspection.
Function: Significant adoption of 3D printing robots to produce complex components and structures
3D printing robots typically refer to robotic systems equipped with additive manufacturing technology, commonly known as 3D printing. These robots are designed to autonomously or semi-autonomously build three-dimensional objects layer by layer using various materials. Bricklaying robots automate the construction of brick, block, and mortar homes by measuring and tracking velocity, GPS, safety, slump, and mortar quality in the construction sector. These bricklaying robots manage the automatic loading, cutting, routing, and placement of bricks and use CAD to complete end-to-end bricklaying. Demolition robots are employed in the construction industry to demolish buildings that leverage various end-of-arm tools such as breakers, crushers, drills, or buckets to break building materials. Deploying construction robots in demolition activities allows humans to remain secure and avoid the risks of causing injuries. Moreover, welding robots are a highly advanced version of automated welding, in which machines conduct the welding, and robotic technology allows for precise and quick results, less waste, and more excellent safety in the construction process.
Application: High utilization of construction robots in commercial buildings construction
Robots are widely used in applications of commercial buildings, public infrastructure, and residential buildings to take on dangerous tasks and replace humans in hazardous situations and unsanitary environments. Construction robots are increasingly used in commercial building projects to enhance efficiency, safety, and quality. They can perform repetitive tasks such as bricklaying, concrete dispensing, and drywall installation, which speeds up the construction process and minimizes human error. Robots have a significant role in developing and maintaining public infrastructure, such as bridges, roads, and tunnels. They assist in dangerous or challenging tasks for humans, such as welding in high-risk environments or operating at heights. In the residential sector, construction robots streamline the building process in multiple facets, from laying foundations to installing roofs. They contribute to the prefabrication of home components, which are then assembled on-site, reducing construction waste and improving precision.
Regional Insights
The construction robots market shows a highly evolving landscape in the Americas owing to the established industrial sector and increasing application of construction robots in various areas, including commercial buildings, residential buildings, and public infrastructure. Growing urbanization and the wide availability of advanced construction resources have progressed tremendously in the construction industry of the EMEA and the APAC regions. European market vendors are collaborating and expanding operation facilities to meet the growing need for construction robots, which arose due to the increased urbanization and higher adoption of automation in the construction industry. Furthermore, the government has focused on R&D and innovation programs that aim to implement technological change in society, such as introducing human-robot collaboration to support employees in their physical or mobile work, which creates a huge potential demand for construction robots. EMEA & APAC region countries are investing to launch robotics research & funding programs to support developments in various industries and are expected to increase the high adoption of construction robots from industrial sectors.
FPNV Positioning Matrix
The FPNV Positioning Matrix is pivotal in evaluating the Construction Robots Market. It offers a comprehensive assessment of vendors, examining key metrics related to Business Strategy and Product Satisfaction. This in-depth analysis empowers users to make well-informed decisions aligned with their requirements. Based on the evaluation, the vendors are then categorized into four distinct quadrants representing varying levels of success: Forefront (F), Pathfinder (P), Niche (N), or Vital (V).
Market Share Analysis
The Market Share Analysis is a comprehensive tool that provides an insightful and in-depth examination of the current state of vendors in the Construction Robots Market. By meticulously comparing and analyzing vendor contributions in terms of overall revenue, customer base, and other key metrics, we can offer companies a greater understanding of their performance and the challenges they face when competing for market share. Additionally, this analysis provides valuable insights into the competitive nature of the sector, including factors such as accumulation, fragmentation dominance, and amalgamation traits observed over the base year period studied. With this expanded level of detail, vendors can make more informed decisions and devise effective strategies to gain a competitive edge in the market.
Key Company Profiles
The report delves into recent significant developments in the Construction Robots Market, highlighting leading vendors and their innovative profiles. These include ABB Ltd., Advanced Construction Robotics, Inc., ANYbotics AG, Apis Cor Inc., Autonomous Solutions, Inc., Boston Dynamics, Inc., Brokk AB, Built Robotics, Canvas Construction Inc., Colena Ltd., Conjet AB, Construction Robotics, CyBe Construction, Dusty Robotics, Exyn Technologies, Fastbrick Robotics Limited, Fujita Corporation, Giant Hydraulic Tech Co., Ltd., HowToRobot, Husqvarna AB, ICON Technology, inc., Kewazo GmbH, KUKA AG, MX3D, nLink AS, Okibo Ltd., Sarcos Technology and Robotics Corporation, SZ DJI Technology Co., Ltd., TopTec Spezialmaschinen GmbH, and ULC Technologies, LLC.
Market Segmentation & Coverage
1. Market Penetration: It presents comprehensive information on the market provided by key players.
2. Market Development: It delves deep into lucrative emerging markets and analyzes the penetration across mature market segments.
3. Market Diversification: It provides detailed information on new product launches, untapped geographic regions, recent developments, and investments.
4. Competitive Assessment & Intelligence: It conducts an exhaustive assessment of market shares, strategies, products, certifications, regulatory approvals, patent landscape, and manufacturing capabilities of the leading players.
5. Product Development & Innovation: It offers intelligent insights on future technologies, R&D activities, and breakthrough product developments.
1. What is the market size and forecast of the Construction Robots Market?
2. Which products, segments, applications, and areas should one consider investing in over the forecast period in the Construction Robots Market?
3. What are the technology trends and regulatory frameworks in the Construction Robots Market?
4. What is the market share of the leading vendors in the Construction Robots Market?
5. Which modes and strategic moves are suitable for entering the Construction Robots Market?