市場調查報告書
商品編碼
1235879
到 2028 年的包裝機器人市場預測——按夾具類型(爪式、夾具、真空、其他夾具)、應用(包裝、揀選和放置、碼垛)、最終用戶、地區進行的全球分析Packaging Robots Market Forecasts to 2028 - Global Analysis By Gripper Type (Claw, Clamp, Vacuum and Other Gripper Types), By Application (Packing, Picking & Placing and Palletizing), By End User and By Geography |
根據Stratistics MRC,2022年全球包裝機器人市場規模將達到56.858億美元,預計2028年將達到126.785億美元,預計複合年增長率為14.3% .
包裝機器人是自動化系統、機器人和專用軟件,用於自動化和加速包裝中的各種過程。 包裝機器人系統用於各種商業領域,包括製藥、消費品、物流以及食品和飲料。
機器人協作,或協作機器人,是指人與機器人之間的密切合作。 機器人可以理解人類的指令,例如語音和手勢,並按照指令開始工作。 與機器人一起工作還有助於提高運營效率並確保人身安全。 事實上,在與人類互動時,如果機器人看到有人擋在它的路徑上,它會暫停或減速。
在新的或現有的包裝線中安裝自動化包裝系統的成本可能相當高。 食品和飲料行業擁有大量小企業和廣泛的產品,是一個高度分散的行業。 一些製造商對採用包裝機器人猶豫不決,理由是安裝和維護成本高,不實用。 此外,農村製造商和分銷商普遍缺乏資金來開發自動化設備。 因此,預計這些因素將抑制預測期內的市場擴張。
視覺傳感器是必不可少的技術,因為它們可以確定包裝的尺寸、形狀、顏色以及標籤和條形碼是否準確。 因為它可以判斷包裹的尺寸、形狀、顏色、標籤和條碼是否正確等。 視覺傳感器技術供應商之間日益激烈的競爭預計將成為未來幾年對視覺傳感器技術需求增加的關鍵因素。
但與西方國家相比,中國、印度等新興國家的包裝線自動化引進率較低。 這背後是廠商不願改變多年養成的工作習慣,以及缺乏熟練的人力資源。 此外,為了正確地執行維護活動,需要具有高級技能的人力資源。 因此,這些國家的合格勞動力短缺和廉價勞動力預計將在不久的將來減緩全球包裝機器人市場的增長。
在全球包裝機器人市場中,COVID-19 大流行迫使許多公司暫時停止運營,但這是由於政府為防止疾病傳播而製定的新規定。為了合規。 停產影響了全球市場的收益。 此外,由於勞動力和原材料短缺,工業品的生產也停止了。
在預測期內,真空夾持器預計將主導市場,具體取決於夾持器的類型,因為它們通常用於夾持金屬和玻璃板等扁平物體。 在包裝和碼垛過程中,這些夾具使用拉蓋快速抓取各種產品。 真空夾持器是包裝行業中的一種流行工具,因為它們可以處理大箱子、瓶子和容器等物體。
在預測期內,包裝機器人市場預計將在拾取和放置應用領域實現利潤豐厚的增長。 這是由於電子商務領域的迅速擴張和包裝機器人的使用取代了勞動密集型和高要求的手工採摘。 此外,該行業也將因包裝機器人的優勢而增長,例如破損更少、價格更低以及取放操作更高效。
預計在預測期內,亞太地區將佔據全球最大的市場份額。 這背後有很多因素,例如視覺傳感器技術的廣泛應用以及自動化和智能化現代化水平的提高導致包裝機器人的使用越來越多。 此外,越來越多地採用這些機器人,它們在不同的溫度下運行,佔用的空間比人類使用的佔地面積少得多,這也是推動該行業發展的一個因素。
由於包裝機器人在製藥和食品飲料行業的迅速採用,預計北美的複合年增長率最高。 此外,科學技術的發展以及消費者對其在汽車行業應用的興趣日益濃厚,預計將推動該地區包裝機器人市場的增長。
2021 年 11 月,日本機器人和計算機數控無線電系統等自動化產品製造商 FANUC CORPORATION 和 ROBOMACHINE 宣布推出一款新機器人 LR- 專為機器修補和各種採摘應用而設計。10iA/10 宣布。
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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 Packaging Robots Market is accounted for $5685.8 million in 2022 and is expected to reach $12678.5 million by 2028 growing at a CAGR of 14.3% during the forecast period. Packaging robots are automated systems, robots, and specialised software used to automate and expedite various processes in packaging. Systems for packaging robots are utilised in a variety of business sectors, including pharmaceuticals, consumer goods, logistics, food and beverage, and others.
Robot collaboration, or collaborative robots, refers to close cooperation between people and robots. The robot can comprehend human commands, including voice, gestures, etc., and begin to work as directed. Collaboration with robots also facilitates great operational efficiency and guarantees human safety. In fact, while dealing with humans, robots will pause or slow down their movement if they spot a human in their path.
It costs a significant amount of money to install an automated packaging system on a new or existing packaging line. With a substantial presence of small and medium-sized firms and a wide range of product offerings, the food and beverage industry is a highly fragmented sector. Due to the high installation and maintenance costs, some manufacturers are hesitant to install packaging robots because they are not practical. Additionally, local manufacturers and distributors typically lack the funding to engage in the automation of their facilities. Therefore, it is anticipated that these factors will restrain market expansion throughout the forecast period.
Vision sensor technology is essential because it can determine a package's size, shape, and color, as well as whether or not its labelling and barcode are accurate. By precisely identifying process irregularities, it improves the packaging process's efficiency. In the upcoming years, increasing rivalry among vision sensor technology providers will be a major factor in the growing demand for vision sensor technology.
However, compared to their Western counterparts, rising nations like China and India have a lower adoption rate of automation in packaging lines. This is usually brought about by the manufacturer's resistance to altering long-established work practises and the scarcity of skilled personnel. Additionally, for maintenance activities to be carried out properly, a highly skilled team of personnel is needed. Thus, it is anticipated that the lack of a competent workforce and the accessibility of cheap labour in these nations will slow the growth of the global packaging robot market in the near future.
Many companies in the global market for packaging robots were compelled to temporarily halt operations due to the COVID-19 pandemic in order to adhere to new rules put in place by the government to prevent the disease's spread. The global market's revenue flow was immediately influenced by this suspension of operations. Industrial product production also came to a halt during the lockdown due to a shortage of labour and raw materials.
The vacuum grippers segmentation is anticipated to dominate the market throughout the forecast period based on gripper type, as vacuum grippers are typically used to hold flat objects like metal or glass sheets. During the packaging and palletizing procedures, these grippers quickly catch a variety of products employing pull covers. Because they can handle objects like enormous boxes, jars, and containers, vacuum grippers are a common tool in the packaging industry.
During the projected period, the picking & placing application segment is anticipated to have lucrative growth in the packaging robots market. This is due to the rapidly expanding e-commerce sector and the use of packaging robots to replace labor-intensive and demanding handpicking. Moreover, the sector will also grow as a result of the advantages of packaging robots, such as reduced damage, lower prices, and more efficiency in pick and place operations.
The Asia-Pacific region is anticipated to hold the largest market share worldwide during the forecast period. Numerous elements, such as the broad application of vision sensor technology and the growing usage of packaging robots as a result of high levels of automation and intelligent modernization, are responsible for this. Moreover, the rising adoption of these robots, which can operate in a variety of temperatures and take up significantly less floor space than people do, is another factor boosting the growth of this industry.
North America is expected to expand at the highest CAGR as a result of the rapidly rising deployment of packaging robots in the region's pharmaceutical and food and beverage sectors. Additionally, it is projected that increasing consumer interest in scientific and technological developments as well as their use in the automotive sector will boost the growth of the packaging robot market in this region.
Some of the key players in Packaging Robots market include: Remtec Automation LLC, Fanuc Corporation, Kuka Roboter Gmbh, Krones AG, Bosch Packaging Technology (Robert Bosch Gmbh), Schneider Electric SE, Yaskawa Electric Corporation, ABB Limited, Brenton LLC, Mitsubishi Electric Corporation, Brenton Engineering and Yaskawa America INC.
In November 2021, FANUC Corporation, a Japan based manufacturer of automation products such as robotics and computer numerical control wireless systems, and ROBOMACHINE's launched a new LR-10iA/10 robot, which is designed for machine tending and for various picking applications.
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Benchmarking of key players based on product portfolio, geographical presence, and strategic alliances