市場調查報告書
商品編碼
1235863
到 2028 年的清潔機器人市場預測——按產品、類型、操作方法、連接技術、分銷渠道、應用和地區分列的全球分析Cleaning Robot Market Forecasts to 2028 - Global Analysis By Product, Type, Operation Method, Connectivity Technology, Distribution Channel, Application and Geography |
到 2022 年,全球清潔機器人市場將達到 44.7 億美元,預計在預測期內將以 24.3% 的複合年增長率增長,到 2028 年達到 165 億美元。 清潔機器人是自主機器人,已用於家庭應用,例如拖地、紫外線消毒以及清潔地板、窗戶和草坪。 該機器人經過智能訓練,可以在無人參與的情況下,通過遙控和自行方式進行人工操作。 專為減少人力和節省時間而設計。
根據美國勞工部 2021 年的統計數據,跨商業和住宅空間的清潔工人每年的成本為 29,760 美元,而清潔機器人的一次性投資成本增加了近 25,000 美元。
住宅領域的最終用戶主要關注部署自動化產品以節省時間和能源。 在自動真空吸塵器中,有智能家居技術的趨勢,這有望成為市場增長的積極因素。 然而,隨著新電子技術的發展及其與傳統系統的融合,傳統的建築技術和智能家居正變得越來越現實和具有吸引力。 此外,將空氣過濾器整合到面向易過敏消費者的自動化設備中,預計將提振市場。
由於清潔機器人的成本高於傳統真空吸塵器,因此住宅使用起來負擔不起。 印度和中國等新興國家的人們依靠專業供應商、勞動力或傳統吸塵器進行清潔。 這些真空吸塵器配備了由眾多傳感器和發射器組成的高科技自動系統。 對此類真空吸塵器的粗暴操作會縮短其使用壽命並導致高昂的維護成本。 作為技術集成的真空吸塵器,它需要大量維護。 因此,消費者可能會轉而使用傳統吸塵器,從而阻礙市場增長。
清潔是一個規模龐大的商業和工業部門,清潔機器人市場有助於節省勞動力成本,這反過來又有助於降低涉及這些部門的組織的運營成本。 因此,清潔機器人製造商將有更多機會進入工業領域等新市場。 清洗機器人目前主要用於高壓清洗、水力噴砂等鋼材清洗作業。 該機器人可用於清潔和爆破船舶、清潔石油和天然氣作業中的儲罐以及清潔工業廠房中的金屬結構。 新的發展可能有助於改進清潔機器人的新應用。
自大流行以來,對清潔機器人的需求大幅飆升。 該行業的主要驅動力之一是清潔機器人在住宅領域的使用。 這些機器人配備了最先進的技術,可以執行各種各樣的任務。 但住房受到最基本和最根本的障礙的阻礙。 這是由於清潔機器人缺乏避障技術。 隨著市場的增長,對避障技術的需求將會增加,製造商可能被迫以更高的價格提供這項技術。 這是一個市場難題,但影響不大,有望在未來幾年內得到解決。
COVID-19 的爆發推動了對清潔機器人的需求。 據國際機器人聯合會稱,由於全球危機期間對清潔度的要求提高,商用清潔機器人的使用量增加了 92%。 因此,已有50多家服務機器人廠商推出了使用紫外線和消毒液的消毒機器人,能夠保持較高的清潔度。 即使在疫情之後,消毒機器人在醫療機構的應用潛力巨大。 主要市場參與者正在集中研發力量以引入新的進步,例如使用機器人清潔器對錶面進行消毒並立即殺死氣溶膠上的細菌和病毒。
隨著家庭勞動力成本的上升,對自動化設備的需求增加,預計地板清潔機器人細分市場將實現良好增長。 商用清潔機器人越來越多地採用人工智能技術,新興國家城市中產階級家庭的崛起,將為市場進入者帶來新的商業前景。 亞馬遜和谷歌在他們的機器人中加入的聲音參與功能有助於使它們更具機動性。 大公司對製造地板清潔機器人的興趣日益濃厚,預計將推動這一領域的增長。
由於引入了人工智能、深度學習和自然語言處理等技術來提高自動駕駛機器人的性能,預計自動駕駛細分市場在預測期內將以最快的複合年增長率增長。我在這裡. 客戶對高精度、高能效、敏捷性和語音識別的自動化設備的偏好不斷增長,這推動了自動駕駛機器人市場的發展。 這些機器人配備了精密且用戶友好的控制台,以增強用戶體驗。
由於家用機器人真空吸塵器的普及、海外玩家的崛起以及新興國家專業服務清潔機器人的激增,預計亞太地區在預測期內將佔據最大的市場份額。 日本是機器人技術的中心,預計在不久的將來對服務機器人的需求將增加,日本也對該行業做出了重大貢獻。 幾家外國公司正在通過戰略生產和分銷協議擴大其在日本的業務。
由於現代清潔技術知識的增加以及美國和加拿大等國家/地區家庭清潔機器人的廣泛使用,預計北美在預測期內的複合年增長率最高。 此外,清潔機器人在零售店、電子商務網站、超市和大賣場等各種分銷渠道的廣泛使用正在推動市場的增長。 此外,該地區越來越多的雙職工家庭正在推動對機器人清潔器的需求。
清潔機器人市場的主要參與者有: Samsung Electronics、Ecovacs Robotics、Neato Robotics、iRobot Corporation、Diversey, Inc、Pentair plc、Nilfisk Group、Milagrow Business and Knowledge Solutions (Pvt.) Limited、ILIFE Robotics Technology、LG Electronics、Maintronics、Intellibot Robotics、Dyson , bObsweep 和 Alfred Carcher
2021年1月,Samsung Electronics推出全新“JetBot 90 AI+”。 全球首款採用 Intel AI 的智能掃地機器人。
2020 年 9 月,iRobot 發布了 Roomba i3+,這是一款先進的 Roomba 吸塵機器人,具有智能導航和自動清空功能,並配備 Clean Base 自動污垢處理功能。
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根據產品組合、地理分佈和戰略聯盟對主要參與者進行基準測試
According to Stratistics MRC, the Global Cleaning Robot Market is accounted for $4.47 billion in 2022 and is expected to reach $16.50 billion by 2028 growing at a CAGR of 24.3% during the forecast period. A cleaning robot is an autonomous robot that has been used in mopping, UV sterilisation, and other domestic applications such as cleaning floors, windows, lawns, and so on. This robot has been intelligently trained to conduct manual operations using a remote control and self-drive mode without the need for human participation. It is specifically designed to reduce human effort and save time.
According to the 2021 statistics of the U.S. Bureau of Labor, the cost of cleaning laborers across commercial and residential spaces is USD 29,760 per year, while the one-time investment in a cleaning robot cost is nearly USD 25,000.
End-users in the residential sectors are primarily focusing on the adoption of automated products in order to save time and energy. With automated cleaners, there is a trend towards smart home technology, which projects well for market growth. However, with the development of new electronic technologies and their integration with previous systems, conventional building technologies and intelligent homes are increasingly becoming a real potential and attraction. Furthermore, the incorporation of air filters in automated equipment for allergy-prone consumers is projected to fuel the market.
A cleaning robot is costlier than a traditional vacuum cleaner, which makes it less affordable for residential use. People from emerging economies such as India and China still rely on professional services, labour or traditional vacuum cleaner machines for cleaning purposes. These vacuum cleaners are outfitted with high-tech automated systems comprised of numerous sensors and transmitters. Rough use of these machines reduces the equipment's lifespan, resulting in hefty maintenance expenditures. Because these vacuums are technologically integrated, they require extensive maintenance. This may cause consumers to switch to traditional vacuum cleaners, impeding the market's growth.
Cleaning is done on a huge scale in the commercial and industrial sectors, and the cleaning robot market helps in saving labour costs, which in turn helps the organisations involved in these sectors cut down on operation costs. This will provide more opportunities for cleaning robot manufacturers to expand their reach into new markets, such as the industrial sector. These robots are now used in steel-cleaning tasks such as high-pressure washing and cleaning and hydro blasting. The robots can be used in the marine industry to clean/blast vessels, the oil and gas business to clean storage tanks, and industrial plants to clean metal structures. New developments would aid in the improvement of cleaning robots for new applications.
Following the pandemic, there has been a significant surge in the demand for cleaning robots. One of the primary drivers for the industry has been the use of cleaning robots in the residential sector. These robots are outfitted with cutting-edge technologies and can perform a variety of tasks. However, they are obstructed by the most fundamental and basic impediments in houses. This is owing to the lesser penetration of obstacle avoidance technology in cleaning robots. As the market increases, the need for obstacle avoidance technology may increase, forcing manufacturers to offer this technology at higher prices. This is a market difficulty that is projected to have a minor impact and to be resolved within the next several years.
The COVID-19 outbreak boosted demand for cleaning robots. According to the International Federation of Robotics, the usage of professional cleaning robots grew by 92% during the global crisis due to higher cleanliness requirements. As a result, more than 50 service robot suppliers launched disinfection robots that employed UV light and disinfectant fluids to keep cleanliness at a high level. Even after the epidemic, there is a great potential for disinfection robots in healthcare facilities. Leading market players are focusing on R&D to introduce new advancements such as disinfecting the surfaces using robotic cleaners to kill the bacteria and viruses on aerosols instantly.
The floor-cleaning robots segment is estimated to have a lucrative growth, due to the increasing demand for automated home appliances in conjunction with the increasing labour costs for households. The increased adoption of AI technology in commercial cleaning robots and emerging urban middle-class households in developing countries would create new business prospects for market participants. The vocal engagement capabilities that Amazon and Google have enabled for the robots have helped to boost their controllability. The increased attention of the leading companies on creating floor-cleaning robots is projected to drive the segment's growth.
The self-driven segment is anticipated to witness the fastest CAGR growth during the forecast period, due to the introduction of technology such as artificial intelligence, deep learning, and natural language processing to improve the performance of self-driving robots. The increased customer preference for automated equipment with high precision, energy efficiency, agility, and speech recognition is propelling the market for self-driving robots. These robots are outfitted with sophisticated and user-friendly consoles that enhance the user experience.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the growing use of robot vacuum cleaners for domestic applications, the rise of foreign players, and the proliferation of cleaning robots for professional services in emerging countries. Japan, which is a rising hub for robotics and is projected to experience large demand for service robots in the near future, is also contributing significantly to the industry. Several foreign corporations are expanding their presence in Japan through strategic production and sales agreements.
North America is projected to have the highest CAGR over the forecast period, owing to the increased knowledge of modern cleaning technology and the widespread use of cleaning robots for domestic use in nations such as the United States and Canada. Furthermore, the widespread availability of cleaning robots through various distribution channels such as retail stores, e-commerce websites, supermarkets, and hypermarkets is boosting market growth. Furthermore, the region's growing number of working households is driving up demand for robotic cleaners.
Some of the key players profiled in the Cleaning Robot Market include: Samsung Electronics Co., Ltd., Ecovacs Robotics, Neato Robotics, iRobot Corporation, Diversey, Inc., Pentair plc, Nilfisk Group, Milagrow Business and Knowledge Solutions (Pvt.) Limited, ILIFE Robotics Technology, LG Electronics, Maytronics, Intellibot Robotics, Dyson, bObsweep and Alfred Karcher
In January 2021, Samsung Electronics launched the new JetBot 90 AI+. It is the world's first Intel AI-powered smart robotic vacuum cleaner.
In September 2020, iRobot launched Roomba i3+, an advanced Roomba Vacuum Robot that offers intelligent navigation and self-emptying capability with Clean Base Automatic Dirt Disposal.
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Benchmarking of key players based on product portfolio, geographical presence, and strategic alliances