Todo lo que necesita saber sobre las boquillas de corte por chorro de agua
Waterjet cutter nozzles are a vital component of waterjet cutters, which are powerful tools for cutting various materials. Waterjet cutters have revolutionized the cutting industry, allowing for precise and efficient cutting of previously difficult or impossible materials.
The nozzle is the component that directs the high-pressure water stream toward the workpiece, converting it into cutting energy. The nozzle accelerates the water flow and focuses the cutting point, allowing for precise and efficient cutting.
In this article, we will explore everything you need to know about boquillas de corte por chorro de agua, including their functions and roles, types, maintenance and care, and more. So, let’s dive in!
What Is A Waterjet Cutter Nozzle?
A waterjet cutter nozzle, also known as a mixing tube or focusing tube, is the component that directs the water stream to the appropriate area of the workpiece. It is the last component of the machine’s water supply system. It can withstand the exceptionally high hydraulic force required for waterjet cutting.
Due to the intense water pressure, nozzle wear often occurs in waterjet cutting. As a result, the water jet nozzle is a machine component that must be replaced occasionally.
Functions And Roles Of Waterjet Cutter Nozzles
The waterjet cutter nozzle plays a crucial role in the cutting process. Its primary function is to direct the high-pressure water stream toward the workpiece, converting it into cutting energy. The nozzle accelerates the water flow and focuses the cutting point, allowing for precise and efficient cutting.
The ideal water stream width varies for each material and thickness, and the nozzle ensures that you can utilize the best water jet nozzle for the greatest cutting result. Waterjets can cut almost any material, including metal, glass, marble, food, and timber.
They have been shown to perform tasks that no other technology can, such as swiftly drilling holes in titanium, cutting food, sterilizing liquids, and cutting excellent details in stone, glass, and metal.
Types Of Waterjet Cutter Nozzles
There are two types of waterjet cutter nozzles: pure waterjet nozzles and abrasive waterjet nozzles.
1. Pure Waterjet Nozzles
Pure waterjet nozzles are used in waterjet cutting that doesn’t employ any abrasives. They are applicable to soft materials that can be cut without abrasive water jet cutting.
These include paper, foam, textiles, rubber, cardboard, and plastics. The nozzle opening may be pretty small since no abrasive particles are present.
2. Abrasive Waterjet Nozzles
Abrasive waterjet nozzles allow for the practical cutting of hard materials that the power of the water alone cannot handle. They have quite different design features when compared to a pure water jet nozzle.
An abrasive jet nozzle introduces abrasive particles into the water in a separate mixing chamber. Abrasive particles may enter the nozzle via an intake. High-pressure water is used to accelerate the abrasive particles, and particles of high-velocity abrasive are used to cut the substance.
Materials, including metals, alloys, composites, ceramics, stone, glass, etc., are often cut using abrasive jet nozzles.
Maintenance And Care Of Nozzles
Waterjet cutters are powerful tools that can efficiently cut through various materials using a high-pressure stream of water mixed with abrasive particles. However, like any machinery, waterjet cutter nozzles require regular maintenance and care to ensure their longevity and effectiveness.
Now we will discuss the importance of nozzle maintenance, common issues that arise, and their preventive measures:
Wear and Tear
The abrasive particles flowing through the nozzle during cutting gradually cause wear and tear on the component. Over time, the inner diameters of the abrasive nozzle may increase by approximately 0.001 inch every hour of cutting. This wear pattern is not always uniform, and one side of the nozzle may wear more quickly than the other.
Monitoring the cut quality and tolerance as the nozzle’s usage hours increase is crucial to prevent poor-quality cuts resulting from worn nozzles. The kerf adjustment can be adjusted to stay within the desired tolerance ranges if necessary.
Clogging Issues
Another common problem that can arise with waterjet cutter nozzles is clogging. Clogs can occur due to factors such as large particles in the abrasive, an excessive amount of abrasive, using an abrasive mesh size that is too big for a given orifice diameter, or the nozzle tip coming into contact with the workpiece during piercing or cutting.
Identifying a blockage is usually straightforward as the water jet halts. In such cases, it is important to halt the machine, remove the Mini hopper and the entire feed line, and thoroughly dry them to remove any accumulated water.
To prevent blockages, it is essential to use the right amount of abrasive and mesh size for the specific abrasive nozzle being used. Additionally, incorporating a screening device in the abrasive bunker can help remove most pollutants from the abrasive. When opening abrasive bags, it is advisable to use a clean knife to avoid introducing any paper into the abrasive.
Height sensing should be utilized to maintain consistent cutting and piercing heights, and proximity switches should be installed along the abrasive feed tube to detect any potential water or abrasive backup.
Nozzle Breakage
Waterjet cutter nozzles, typically made of tungsten carbide, are highly hard but also fragile. Nozzle breakage can occur when the nozzle drags on the material’s surface, collides with a tilted portion, hits the edge of the sheet material, or is accidentally dropped during routine maintenance.
Not only can nozzle breakage disrupt production, but it can also increase operating costs, especially if it happens early in the nozzle’s life when it is still in excellent condition.
To prevent nozzle breakage, it is recommended to rely on height detection and collision prevention systems to increase nozzle life. Investing in software with collision avoidance capabilities allows operators to adjust the lead-in position based on the cutter head’s movement, reducing the risk of collisions and subsequent nozzle damage.
Preguntas frecuentes
How Are Waterjet Nozzles Made?
Waterjet nozzles are typically made from tungsten carbide, a highly hard but also very fragile material. The process of sintering is used to turn the powdered tungsten carbide into a solid component.
The powder is placed in a die during sintering and formed into the desired shape under high pressure and temperature. This is how tungsten carbide water jet cutting nozzles are created.
What is a water jet cutting nozzle’s diameter?
The diameter of a water jet cutting nozzle varies depending on the type of cutting being performed. For abrasive waterjet cutting, a waterjet stream is a round tool with a diameter of between 0.030″ and 0.040″ (0.76 mm and 1.02 mm). This means that it can be difficult to create completely square inner corners, as the round shape of the waterjet stream will always leave a small radius.
Conclusión
Waterjet cutter nozzles are indispensable components of waterjet cutters, enabling precise and efficient cutting of various materials. The two types of nozzles, pure waterjet, and abrasive waterjet, cater to different cutting needs. Proper maintenance is essential to ensure the longevity and effectiveness of these nozzles, with common faults requiring attention and practical tips for maintenance provided.
The critical role played by waterjet cutter nozzles cannot be emphasized enough, making them a key factor in achieving high-quality cutting results. Please Contacto if you want to buy a good quality waterjet cutter or for more detailed information on waterjet cutter nozzles.