Jun. 29, 2021
Hangzhou IECHO Science & Technology Co., Ltd. always insists on providing intelligent cutting solutions, systems, and services to the world based on technological innovation. At present, the company has more than 400 employees, of which R&D personnel accounts for more than 30%. IECHO never stops innovating, and PK1209 is another big breakthrough of IECHO in innovation.
IECHO already has two models PK 0604 (cutting area L*W 600*400mm) and 0705 (L*W 700*500mm), but in 2020, some customers reflected that they hope to have a larger size machine, to which IECHO attaches great importance, quickly organized the research and development department and product department to study the feasibility of the production of new machines, after a year of repeated debugging and inspection, the first PK1209 will be sent to customers.
IECHO PK1209 covers an area of 3200mm*1500mm*1150mm, with a cutting area of 1200mm*900, which has increased exponentially compared to the previous model and is able to cut A0 paper size material, and we have also enhanced the performance of the machine by increasing the thickness of the cutting material from the original 6mm to the current 10mm, which has greatly broadened the use of the machine.
At the same time, IECHO has also improved the collection area load capacity of PK. The original PK model's collection area could only carry materials weighing 20kg with a stacking thickness of 12cm (about 400 sheets of 250g cardboard), but now it can carry a staggering 300kg with a stacking thickness of up to 17cm (about 600 sheets of 250g cardboard), and the increase in stacking thickness means less manual intervention in the loading process. The stacking thickness has been increased, which means less manual intervention in the loading process. 2400 sheets of cardboard needed to be loaded six times, but now it has been reduced to four times, further reducing labor costs and streamlining the operation process.
IECHO PK1209 uses the latest model of CCD camera, which has higher precision and can automatically and accurately register contour cutting for various printed materials, avoiding manual positioning and printing errors for simple and accurate cutting. Multiple positioning methods can meet the processing needs of different materials and fully guarantee cutting accuracy.