Описание
Детали гидроабразивных ячеек для роботов
Item number: 304363 pn. Connector
Подробностьs: используется на манипуляторах роботов ABB, Роботизированная станция гидроабразивной резки
Win-Win предоставляет решения для гидроабразивной резки роботов, детали ячеек для гидроабразивной резки роботов и т. Д.
Related robot waterjet cutting workstation & Детали гидроабразивной ячейки робота:
Роботизированный Система гидроабразивной резки: Роботизированная гидроабразивная рабочая станция Yaskawa, роботизированная гидроабразивная рабочая станция Dual Fanuc, роботизированная гидроабразивная рабочая станция ABB
FAQ of platform waterjet machine & robot waterjet system & Детали гидроабразивной ячейки робота:
The principle of waterjet cutting machine
When the water is pressurized to a very high pressure and passes through the small opening of the special nozzle (the diameter is 0.1mm to 0.5mm), it can produce a waterjet that reaches nearly 1,000 meters per second (about three times the speed of sound), this high-speed waterjet can cut a variety of soft materials including food, paper, diapers, rubber and foam, this kind of cutting is called pure water cutting. And when a small amount of abrasive such as garnet is added to the waterjet and mixed with it, the resulting abrasive waterjet can cut virtually any hard material including metal, composite materials, stone and glass. Ultra-high pressure waterjet can also used in a variety of industrial surface treatment applications such as boat hull cleaning and automotive painting equipment cleaning.
The key to the formation of ultra-high pressure water lies in the intensifier pump. The working process of the pressure intensifier is generally that the low-pressure oil from the oil pump pushes the piston of the pressure intensifier to make it reciprocate. On the other hand, the water supply system first purifies the water, and then the water pump pumps out low-pressure water, and the low-pressure water entering the pressure intensifier is pressurized by a small piston and then the pressure increases. In order to obtain a stable high-pressure water jet, the generated high-pressure water needs to enter the accumulator and then flow to the small nozzle, so as to achieve the purpose of stable pressure. The high-pressure waterjet is ejected from the small nozzle. so another key link is the nozzle. The nozzle is generally made of artificial (or natural) ruby or sapphire, the diameter is usually 0.1mm to 0.5mm, and the waterjet flows out at a speed of 1000m/s after passing through the nozzle.