304421 Eje de bobina 1 Piezas de celda de chorro de agua del robot

Spare parts for robot waterjet cutting workstation

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Piezas de celdas de chorro de agua para robots

Item number: 304421 Coil Axis 1 Outer IRB 2400

Detalles: utilizado en los brazos robóticos de ABB

Win-Win proporciona soluciones de chorro de agua robotizado, piezas de celdas de chorro de agua robotizadas, etc.

Eje de bobina 4,5,6 Bajo IRB 2000

Related robot waterjet cutting workstation & Piezas de células de chorro de agua del robot:

Robótico Sistema de corte por chorro de agua & Piezas de celdas de chorro de agua para robots: Estación de trabajo robótica de chorro de agua Yaskawa y piezas de celda de chorro de agua robotizadas, estación de trabajo de chorro de agua robótica Dual Fanuc y piezas de celda de chorro de agua robótica, estación de trabajo robótica de chorro de agua ABB y piezas de celda de chorro de agua robótica.

FAQ of platform waterjet machine & robot waterjet system & Piezas de células de chorro de agua del robot:

About Waterjet Robotics and Waterjet Cutting Machines Low Pressure Drilling, High Pressure Cutting

Water jet robots and water jet cutting machines are devices that utilize a high-speed jet of water for cutting and processing. Two common applications of water jet technology are low-pressure drilling and high-pressure cutting.

Low-pressure piercing is the use of low-pressure water jets to create small holes in the surface of a material for cutting in subsequent processing. Low-pressure piercing typically uses a relatively low water pressure and an appropriate nozzle size to ensure that small holes are created in the material without damaging the surrounding area. This type of drilling is often used to create a starting point in hard materials to provide an entry point for subsequent high-pressure cutting.

High-pressure cutting (HPC) involves the use of a high-pressure water jet to cut material. In high-pressure cutting, a stream of water is pressurized to thousands to tens of thousands of pounds of pressure by a high-pressure pump and then passed through a specialized nozzle to create a high-speed jet. This high velocity jet is able to shear, grind and impact separate materials for a precise cutting process. High-pressure cutting is used in a wide variety of materials, including metals, stone, composites and rubber.

A water jet robot is a robot capable of operating underwater or above water, and is equipped with a water jet system and motion control system to perform a variety of water jet processing tasks, including low-pressure punching and high-pressure cutting. Water jet robots have the flexibility and precision to machine complex workpiece surfaces and are suitable for environments and scenarios that require manual labor that is difficult to reach, such as the deep sea or high radiation areas.

In summary, water jet robots and water jet cutting machines can be used in the cutting and machining process in two ways, low-pressure perforation and high-pressure cutting, to achieve different processing needs. Low-pressure perforation is used to form the cutting entrance, while high-pressure cutting is used to realize precise cutting operations.

Especially in the water jet cutting applied to glass or other fragile material cutting, low pressure start is necessary, first of all, in order to ensure that the material will not be suddenly started by the high pressure impact of broken, in addition to the water jet cutting machine set up to wait for the 0-pressure, low-pressure start, high-pressure cutting for the water jet booster pump to play a very good role in the protection of the water jet. And about waiting, low pressure and high pressure between the time can be based on the water jet cutting user’s cutting needs to set their own.
In addition, there are users for water jet cutting machine pressure adjustment method there are questions, some users want to electronically controlled regulator valve to regulate the pressure of the water jet high-pressure pump. In fact, our water jet cutting machine is through the CNC control system in the input cutting data, set the cutting material 0 pressure waiting, low-pressure start, high-pressure cutting between the waiting time and pressure value, we recommend that the maximum pressure of 420mpa pump continuous working pressure between 0-360mpa, it is best not to exceed this value, otherwise the pump will cause accelerated wear. In addition the high pressure pump pressure adjustment can be adjusted by the pump above the high and low pressure adjustment valve.

So which materials are susceptible to shattering?

Water jet cutting is a non-thermal cutting method that can be used to cut a variety of materials. However, some materials may be susceptible to fragmentation during water jet cutting, mainly due to the following factors:

Brittle materials: water jet cutting is prone to cracking and shattering for brittle materials, such as ceramics, glass and stone. Due to the high impact force generated by the water jet, it will cause stress concentration inside the brittle material, leading to material rupture.

Peelable materials: Some materials with layer structure or easy peelability, such as ceramic coatings, ceramic substrates, coating materials, etc., are prone to peeling and detachment between layers during water jet cutting.

Crystalline materials: water jet cutting for crystal structure materials, such as monocrystalline silicon, sapphire, etc., is also prone to crack expansion and crystal fracture. This is because materials with crystal structure have a specific lattice structure inside, and the impact force of the water jet may damage the crystal structure, leading to cracks and expansion.

Thin sheet materials: Some thin sheet materials, such as thin metal sheets and thin plastic sheets, may deform, warp or tear during the cutting process due to their thinness.

It is important to note that even though some materials have a higher risk of fragmentation in water jet cutting, the possibility of fragmentation can still be reduced by adjusting the cutting parameters, using the appropriate nozzle and reducing the cutting speed. In addition, for materials that are prone to fragmentation, other suitable cutting methods may be considered to avoid damaging the material. Prior to any cutting operation, it is recommended that material testing and evaluation be performed to determine the most suitable cutting method and parameters.

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