The high pressure cylinder is a crucial component of a waterjet system because it determines the cutting ability of the waterjet. The pressure generated by the high pressure cylinder determines the velocity and force of the waterjet, which in turn determines how quickly and efficiently it can cut through different materials.
Description
Waterjet High Pressure Cylinder72160831
Waterjet High Pressure Cylinder72160831 is applied for SL-VI 50HP pump
Item | Part Number | Description | Item | Part Number | Description |
1 | 72160831 | High Pressure Cylinder | 14 | 05034764
| Hydraulic Cylinder
|
2 | 05119151 | Plunger
| 15 | 10075000
| O-Ring, 3.75 x 4.0 x .13 |
3 | 72142526
| Sealing Head Assembly | 16 | 05034855
| Backup Ring, 3.75 x 4.0 |
4 | 05034772
| Hydraulic Cylinder Head | 17 | 05141106
| Socket Head Screw, M14 x 60MM |
5 | 20422243
| HP Seal Assembly
| 18 | 72146433
| Proximity Switch Kit
|
7 | 80073646
| Cylinder Nut
| 20 | 05132253
| Piston Assembly
|
8 | 05130091
| Hydraulic Seal Cartridge Assembly | 21 | 20427804
| Intensifier Support
|
9 | 05007786
| Bushing Retainer Flange | 22 | 20427994
| Socket Head Screw, M10 x 1.50 x 65MM |
10 | 20497767
| Liner, HP Cylinder | 23 | 05061486
| Lock Washer, M10
|
11 | 10074920
| O-Ring, 1.75 x1 .94 x .09 | 24 | 10074409
| O-Ring, 1.0 x 1.25 x .13 |
12 | 80070352
| Jackbolt
| 25 | 05144183
| Spacer Assembly, Proximity Switch |
13 | 05034798
| Retaining Ring
| 26 | 05081872
| Gasket, Topworks Support |
What is the function of waterjet high pressure cylinder
The high-pressure cylinder is a crucial component of a waterjet system because it determines the cutting ability of the waterjet. The pressure generated by the high-pressure cylinder determines the velocity and force of the waterjet, which in turn determines how quickly and efficiently it can cut through different materials.
The high-pressure cylinder is typically designed to withstand very high levels of pressure, and it’s made of high-strength materials that can handle the intense forces generated during the cutting process. The cylinder is often designed to be durable and long-lasting to withstand the wear and tear associated with the waterjet cutting process.
Additionally, the high-pressure cylinder is typically equipped with safety features to prevent accidents. For example, pressure relief valves may be installed to release excess pressure and prevent damage to the cylinder or the waterjet system. Other safety features may include pressure gauges or sensors that monitor the pressure levels and alert the operator if the pressure exceeds safe levels.
In summary, the waterjet high-pressure cylinder plays a vital role in the waterjet cutting process by generating the high-pressure water required for cutting. It’s typically designed to withstand high pressure, made of durable materials, and equipped with safety features to prevent accidents.
The high-pressure cylinder in a waterjet system is a crucial component that generates the intense water pressure needed for the waterjet cutting process. The waterjet high-pressure cylinder is typically a hydraulic or pneumatic cylinder that contains a piston. As hydraulic fluid or compressed air is pumped into the cylinder, it pushes the piston forward, which in turn compresses the water in the system.
The compressed water is then forced through a small orifice, creating a high-speed jet of water that can cut through a wide range of materials such as metal, stone, verre, and plastics. The high-pressure cylinder is responsible for generating the pressure required to create this high-speed jet of water, which is typically in the range of 30,000 pour 90,000 pounds per square inch (psi).
In summary, the high-pressure cylinder in a waterjet system serves the critical function of generating the high-pressure water required for the waterjet cutting process.
What are some factors that can affect the performance of the high-pressure cylinder?
Several factors can affect the performance of a high-pressure cylinder in a waterjet system. Here are some of the most common factors:
1.Contamination: Any contamination, such as dirt, debris, or water, can negatively impact the performance of the high-pressure cylinder. It can cause the cylinder to malfunction or wear out prematurely. Therefore, it’s essential to keep the hydraulic fluid or compressed air clean and free of contaminants.
2.Temperature: High-pressure cylinders are sensitive to temperature changes. If the cylinder is exposed to high temperatures, it can cause the material to weaken, leading to cracks, leaks, or even bursts. On the other hand, if the temperature is too low, it can cause the hydraulic fluid to thicken, reducing the performance of the cylinder.
3.Overloading: Overloading the high-pressure cylinder can cause it to fail or wear out prematurely. It’s crucial to ensure that the waterjet system is operating within the recommended pressure range to prevent damage to the cylinder.
4.Maintenance: Regular maintenance of the high-pressure cylinder is crucial to ensure optimal performance. Neglecting maintenance can lead to wear and tear, leaks, and other issues that can affect the performance of the cylinder.
5.Quality of components: The quality of the components used in the high-pressure cylinder can also affect its performance. Using low-quality or incompatible components can cause the cylinder to fail or wear out prematurely.
How does the high-pressure cylinder generate the pressure required for cutting?
1.The high-pressure cylinder generates the pressure required for cutting by compressing the water in the system. Here’s a more detailed explanation of how it works:
2.Hydraulic or Pneumatic Fluid: The high-pressure cylinder in a waterjet system is typically powered by hydraulic fluid or compressed air. The fluid or air is pumped into the cylinder, which contains a piston.
3.Compressing Water: As the hydraulic fluid or compressed air enters the cylinder, it pushes the piston forward, which in turn compresses the water in the system.
4.High-Pressure Water Generation: The compressed water is then forced through a small orifice, creating a high-speed jet of water that is used for cutting.
5.Water Velocity: The velocity of the waterjet is determined by the pressure generated by the high-pressure cylinder. The higher the pressure, the faster the water travels, and the more force it generates.
6.Coupe: The high-speed jet of water is directed at the material being cut, which erodes the material and separates it into two pieces.
In summary, the high-pressure cylinder generates the pressure required for cutting by compressing the water in the system through the use of hydraulic fluid or compressed air. The compressed water is then forced through a small orifice to create a high-speed jet of water that is used for cutting. The pressure generated by the high-pressure cylinder determines the velocity and force of the waterjet, which in turn determines how quickly and efficiently it can cut through different materials.
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