Robot system integration is a method of programming and supplying industrial robots for performing manufacturing tasks autonomously. The global food and beverage robotic system integration market for pick and place application is estimated to generate revenue of US$ 17.5 million in 2017 from US$ 15.8 million in 2016. The market is expected to generate revenue of US$ 40.1 million by 2025, exhibiting a CAGR of 10.91% over the forecast period.
Get a PDF Sample of Research Report @ https://www.coherentmarketinsights.com/insight/request-pdf/1381
The adoption for robotic system integrator in manufacturing and processing of food and beverages is increasing, owing to increased efficiency, reduced errors, no requirement for clean and contamination free production area, efficient process management, appropriate usage of raw materials, reduced waste, and depletion in production time offered by robotic integration. This in turn, results in enhanced levels of production. For instance, in 2003, a grading system was developed using robots, which segregates deciduous fruits such as peaches, pears, and apples. This system automatically segregates the fruits by inspecting all sides of the fruit and placing them in their respective crates for further process. In this grading system, robot’s maximum speed is 1 m/s and its stroke is around 1.2 m. Within 2.7 seconds, the robot can transfer 12 fruits to their respective trays and takes 0.4 seconds to move the product down to the conveyor line. The robotic arm returns back to its original place after releasing the fruit, within 1 second. The pick and place robots complete the entire operation in 4.25 seconds. As per this calculation, one set of pick and place robot can process around 10, 000 fruits per hour.
North America held a dominant position in the food and beverage robotic system integration market for pick and place application market in 2016.
On the basis of geography, the food and beverage robotic system integration market for pick and place application market is segmented into North America, Europe, Asia Pacific, Latin America, Middle East, and Africa. The Europe region held a dominant position in the market in 2016 and is projected to retain its dominance throughout the forecast period. The market in the region is estimated to generate revenue of US$ 4.82 million in 2017, and is expected to reach US$ 11.12 million by 2025, exhibiting a CAGR of 11.02% over the forecast period. Increasing industrial robots in European region plays a major role for the growth of the pick and place integrator market. Germany is one of the key countries generating revenue in the market in the region and holds the fifth position in the global robotic market. According to International Federation of Robotics, 20,105 units of industrial robots were sold in 2015. Similarly, Italy, France, Spain, the U.K. are some of the key countries, which recorded industrial robotic sales of 6,700 units, 3,045 units, 3,800 units, and 1,645 units, respectively. Increasing sales of robots is in turn, increasing the adoption of these robots in the food and beverage industry. Thus, the market for food and beverage robotic system integration market for pick and place application is growing rapidly.
Key Players in the Market
Major players operating in the global food and beverage robotic system integration market for pick and place application market include Blueprint Automation, Bradman Lake Group, EPIC Systems, Inc., Fallas Automation, Inc., Robert Bosch GmbH, Simplimatic Automation, JLS Automation, KLEENLine, Shuttleworth, LLC., Multivac, Stelram Engineering Ltd, RobotWorx, RightHand Robotics, Inc., PWR Pack Ltd., Bastian Solutions, Inc., iNova Microsystems Pte. Ltd., AMF Bakery Systems, and Gerhard Schubert GmbH.
About Coherent Market Insights:
Coherent Market Insights is a prominent market research and consulting firm offering action-ready syndicated research reports, custom market analysis, consulting services, and competitive analysis through various recommendations related to emerging market trends, technologies, and potential absolute dollar opportunity.