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Nozzle For Laser Cutting & Welding Machine

Royell nozzles feature high precision cutting and strong durability, made from premium materials to ensure excellent performance even with frequent use. Designed in various specifications, they optimize airflow to enhance cutting efficiency and reduce material waste. Easy to replace, they minimize downtime and boost production efficiency, offering high cost-effectiveness to help customers reduce operational costs.

Adaptive Brand

Our nozzles are compatible with a wide range of leading laser cutting brands, including Adapted to Amada® Ospri@ BLM® BOCI® Bodor®Bystronic® DNE@ Penta@ Precitec® Raytools@ WSX® Hans Laser@ Trumpf@ . Designed for seamless integration, they ensure exceptional performance and precision across various cutting systems. Choose our nozzles for reliable, high-quality cutting solutions tailored to your specific laser equipment needs.

Product Showcase

1. Adapted to Amada®

Our nozzles ensure precise and efficient cutting performance with AMADA laser systems.

Adapted to Amada®

Product Specifications

  • Material: T2 Copper
  • Diameter: 25mm
  • Height: 20mm
  • Thread Size: 12mm

Compatible Models

  • LC2415 ALPHA IV NT
  • FO 3015 NT
  • FO 4020 NT
  • FOL 3015 NT
  • EML Z-3610 NT
  • LC2012 C1 NT

Adapted to Amada®

Product Specifications

  • Material: T2 Copper
  • Diameter: 25mm
  • Height: 20mm
  • Thread Size: 12mm

2. Adapted to BOCI®

Adapted to BOCI®

Product Specifications

  • Material: T2 Copper
  • Diameter: 27mm
  • Height: 34mm
  • Thread Size: 11mm

Adapted to BOCI®

Product Specifications

  • Material: T2 Copper
  • Diameter: 11mm
  • Height: 19mm
  • Thread Size: 8mm

Adapted to BOCI®

Product Specifications

  • Material: T2 Copper
  • Diameter: 28mm
  • Height: 22.5mm
  • Thread Size: 11mm

3. Adapted to BODOR®

Compatible nozzles ensuring high performance with Bodor laser systems.

Adapted to BODOR®

Product Specifications

  • Material: T2 Copper
  • Diameter: 28mm
  • Height: 15mm
  • Thread Size: 11mm

4. Adapted to BLM®

Perfectly compatible with BLM laser cutting machines for optimal results.

Adapted to BLM®

Product Specifications

  • Material: T2 Copper
  • Diameter: 28mm
  • Height: 15mm
  • Thread Size: 11mm

Compatible Models

  • LT5
  • LT120
  • LT COMBO
  • LT FIBER
  • LT702D
  • LT712

Adapted to BLM®

Product Specifications

  • Material: T2 Copper
  • Diameter: 28mm
  • Height: 15mm
  • Thread Size: 11mm

Compatible Models

  • LT5
  • LT120
  • LT COMBO
  • LT FIBER
  • LT702D
  • LT712

5. Adapted to Bystronic®

High-performance nozzles for seamless integration with Bystronic equipment.

HK NK Nozzle

Product Specifications

  • Material: T2 Copper
  • Diameter: 14mm
  • Height: 17mm
  • Thread Size: 10mm

6. Adapted to DNE®

Boost cutting efficiency and reliability with our nozzles for DNE machines.

DNE Nozzle

Product Specifications

  • Material: High-quality T2 Copper
  • Diameter: 28mm/15mm
  • Height: 22mm/15mm
  • Thread Size: M14/M12

7. Adapted to Hans Laser®

Tailored for Hans Laser systems, providing exceptional cutting precision.

MCSB Nozzle

Product Specifications

  • Material: High-quality T2 Copper
  • Diameter: 28mm
  • Height: 15mm
  • Thread Size: M11

SP-S Nozzle

Product Specifications

  • Material: High-quality T2 Copper
  • Diameter: 28mm
  • Height: 15mm
  • Thread Size: M11

Boost Supersonic Nozzle

Product Specifications

  • Material: High-quality T2 Copper
  • Diameter: 28mm
  • Height: 15mm
  • Thread Size: M11

8. Adapted to Ospri®

FSN08 3D Nozzle

Product Specifications

  • Material: T2 Copper
  • Diameter: 15mm
  • Height: 19mm
  • Thread Size: 8mm

9. Adapted to PENTA®

D28 Nozzle

Our laser cutting nozzles feature a conical design and are made from high-quality T2 copper, ensuring excellent thermal conductivity and durability. These nozzles are suitable for frequent use in demanding environments and offer high precision cutting, strong durability, optimized airflow, and easy replacement. They are compatible with various PENTA models, providing optimal performance and reliability.

Product Specifications

  • Material: T2 Copper
  • Diameter: 28mm
  • Height: 15mm
  • Thread Size: 11mm

10. Adapted to Precitec®

Achieve superior cutting accuracy with our nozzles for Precitec heads.

D28 Nozzle

Product Specifications

  • Material: T2 Copper
  • Diameter: 28mm
  • Height: 15mm
  • Thread Size:M11

Our D28 conical nozzles are compatible with the following laser cutting machine brands and models:

  • ADIGE
  • ADIRA
  • BALLIU
  • BAYKAL
  • CY LASER
  • DANOBAT
  • DURMA
  • ERMAKSAN
  • HACO
  • HYMSON
  • MICROSTEP
  • SEI
  • TCI
  • TECOI
  • FINN POWER

By choosing Royell’s D28 conical nozzles, you will gain reliable, efficient, and cost-effective cutting solutions, bringing significant benefits and competitive advantages to your laser cutting operations.

D28 H11 Nozzle

Product Specifications

  • Material: T2 Copper
  • Diameter: 28mm
  • Height: 11mm
  • Thread Size: M11

Saucer (Single Layer) Nozzle Features

  • Specialized for Stainless Steel Cutting: Designed for high precision stainless steel cutting, ensuring accuracy and consistency with every cut.
  • Strong Durability: Made from premium materials, these nozzles perform excellently even with frequent use, ensuring a long lifespan.
  • Optimized Airflow: Designed to optimize airflow, enhancing cutting efficiency and reducing material waste.

Conical (Double Layer) Nozzle Features

  • Specialized for Carbon Steel Cutting: Designed for oxygen-assisted carbon steel cutting, offering higher cutting efficiency and better cooling effects.
  • Durability: The double-layer structure increases the nozzle’s durability and lifespan, performing excellently in demanding environments.
  • Efficient Cooling: Provides better cooling, ensuring stability and precision during the cutting process.

D28 H11 Nozzle

KTX nozzles are specifically designed to fit the Precitec Procutter 2.0 laser cutting head, ensuring superior cutting performance and reliability. Made from high-quality materials, these nozzles maintain excellent thermal conductivity and durability, even in demanding environments with frequent use. Suitable for various laser cutting applications, they offer high precision cutting, optimized airflow, and easy replacement.

Product Specifications

  • Diameter: 30mm
  • Thread Size: M15
  • Height: 18.6mm

M6 Tube Cutting Nozzle

Product Specifications

  • Material: T2 Copper
  • Diameter: 8mm
  • Height: 10mm
  • Thread Size:M6

Boost Nozzle

Product Specifications

  • Material: T2 Copper
  • Diameter: 28mm
  • Height: 15mm
  • Thread Size:M11

11. Adapted to Bodor® & Raytools®

Optimize cutting precision and efficiency with our Raytools-compatible nozzles.

D32 Disc Type Nozzle

  • Material: T2 Copper
  • Diameter: 32mm
  • Height: 15mm
  • Thread Size:M14

D32 conic Nozzle

  • Material: T2 Copper
  • Diameter: 32mm
  • Height: 15mm
  • Thread Size:M14

3D M8 Tuber Cutter Nozzle

  • Material: T2 Copper
  • Diameter: 32mm
  • Height: 15mm
  • Thread Size:M14

Bullet Laser Nozzle

  • Material: T2 Copper
  • Diameter: 10.5mm
  • Height: 22mm

Bullet Laser Nozzle

  • Material: T2 Copper
  • Diameter: 15mm
  • Height: 18mm
  • Thread Size:M11

12. Adapted to SALVAGNINI®

D27 Disc Type Nozzle

  • Material: T2 Copper
  • Diameter: 27mm
  • Height: 29mm
  • Thread Size:M20.3

13. Adapted to Trumpf®

Deliver outstanding cutting results with nozzles designed for Trumpf systems.

ECE Nozzle

  • Material: T2 Copper
  • Diameter: 24mm
  • Height: 10mm
  • Thread Size:M8

EAA Nozzle

  • Material: T2 Copper
  • Diameter: 25mm
  • Height: 15.5mm
  • Thread Size:M12

EAU Nozzle

  • Material: T2 Copper
  • Diameter: 25mm
  • Height: 15mm
  • Thread Size:M11

EAK Nozzle

  • Material: T2 Copper
  • Diameter: 27mm
  • Height: 29mm
  • Thread Size:M8

EBM-H10.5 Nozzle

  • Material: T2 Copper
  • Diameter: 11mm
  • Height: 8mm
  • Thread Size:M6

EBM-H8 Nozzle

  • Material: T2 Copper
  • Diameter: 11mm
  • Height: 8mm
  • Thread Size:M6

14. Laser Welding Nozzle

CQWY Welding Nozzle

HANWEI Nozzle

WSX Welding Nozzle

QILIN Welding Nozzle

Still not finding what you're looking for? Contact our consultants for more available products.

Features of Our Nozzles

High Precision Cutting

Our nozzles ensure accuracy and consistency with every cut, meeting various complex cutting requirements. Whether you’re working on intricate patterns or precise straight lines, our nozzles deliver superior performance, ensuring smooth, burr-free edges and enhancing the quality of the finished product.

Strong Durability

Made from premium materials, our nozzles maintain excellent performance and long lifespan even under frequent use. They are wear-resistant and high-temperature resistant, providing stable performance in harsh working conditions and significantly reducing replacement frequency and maintenance costs.

Various Specifications

We offer nozzles in various sizes and specifications to fit different laser cutting heads and application scenarios. Whether you need a small diameter for fine cutting or a large diameter for high-speed cutting, we have the right nozzles to meet your needs, ensuring optimal cutting results.

Optimized Airflow

Our nozzles are designed to optimize airflow, improving cutting efficiency and reducing material waste. By precisely controlling the airflow path, our nozzles effectively prevent charring and deformation during cutting, ensuring consistent cutting quality.

Easy Replacement

With a simple replacement design, our nozzles minimize downtime and enhance production efficiency. They are easy to install and remove without the need for special tools, making the process quick and straightforward, maximizing the continuity and efficiency of your production line.

Cost-Effective

Our nozzles offer high cost-effectiveness, helping customers reduce operational costs while ensuring quality. Through optimized design and material selection, our products achieve the perfect balance between performance and price, providing customers with a higher return on investment.

Make your job easier with our Laser Nozzles

Something you should know

I.how does laser welding work?

Laser welding is a high-precision, efficient process that uses a concentrated laser beam to join materials, typically metals or thermoplastics. The laser is generated by a source such as a solid-state laser, fiber laser, or CO2 laser, and directed to the welding area via mirrors or fiber optics. The laser beam is focused to a small spot, creating a high power density that melts the material at the point of contact.

When the laser beam hits the material, it absorbs the laser energy, causing rapid localized heating and the formation of a molten pool. As the laser beam moves along the predetermined welding path, the molten material from both parts flows together and solidifies upon cooling to form a strong weld joint. Sometimes, a shielding gas such as argon or helium is used to protect the weld area from oxidation and contamination.

Laser welding offers numerous advantages, including high precision, fast processing, and a small heat-affected zone. It can precisely weld complex components, increase production speed, and reduce the risk of thermal distortion and material degradation. Widely used in industries such as automotive, aerospace, medical devices, and electronics, laser welding is a versatile and efficient method for material joining.

II.what is laser cutting machine ?

A laser cutting machine uses a high-powered laser beam to cut and shape materials with extreme precision. The laser beam, generated by a source such as a CO2 laser, fiber laser, or solid-state laser, is directed towards the material through a beam delivery system. The concentrated laser energy heats, melts, and vaporizes the material, creating a clean and precise cut.

Components

  1. Laser Source: Generates the laser beam. Common types include CO2 lasers, fiber lasers, and solid-state lasers, each suitable for different materials and applications.
  2. Beam Delivery System: Guides the laser beam from the source to the cutting head using mirrors or fiber optics.
  3. Cutting Head: Focuses the laser beam onto the material, often including lenses, a nozzle, and sometimes a shielding gas supply.
  4. CNC Controller: A computer numerical control system that precisely controls the movement of the cutting head and material based on a pre-programmed design.
  5. Work Table: The surface where the material is placed, which can be stationary or equipped with a motion system.

How It Works

  1. Design Input: The design is input into the CNC controller.
  2. Laser Activation: The laser source generates a high-powered beam directed through the delivery system to the cutting head.
  3. Material Interaction: The focused beam heats the material to the point of melting, burning, or vaporizing.
  4. Cut Formation: The cutting head follows the pre-programmed path, cutting the material as it moves. CNC precision ensures accurate and intricate cuts.
  5. Finishing: Depending on the material and thickness, minimal post-processing may be needed due to the laser’s precision.

Applications

Laser cutting machines are used in various industries due to their precision and versatility:

  • Manufacturing: Cutting metal sheets, plastic components, and industrial products.
  • Automotive: Producing high-precision parts and components.
  • Electronics: Shaping components for electronic devices.
  • Medical: Creating intricate parts for medical devices and implants.
  • Aerospace: Cutting high-strength materials for aircraft components.
  • Art and Design: Crafting intricate designs in wood, acrylic, and fabric.

Laser cutting machines offer unmatched precision and versatility, making them essential tools in modern manufacturing and various other industries.

III.what is laser cutter used for ?

Laser cutting machines are categorized by their laser sources, each with specific applications and advantages. Here are the main uses of laser cutting machines based on their laser source types:

1. CO2 Laser Cutting Machines

CO2 laser cutting machines use carbon dioxide gas as the laser medium and are suitable for cutting various non-metallic materials and some metals.

  • Manufacturing: Cutting plastics, wood, acrylic, and paper for industrial products and packaging.
  • Advertising and Signage: Creating signs and displays from acrylic, wood, and other non-metal materials.
  • Textile and Fashion: Precisely cutting fabrics, leather, and synthetic materials for clothing and accessories design.
  • Art and Design: Fine engraving and etching on wood, acrylic, leather, and glass to create decorative items and custom gifts.

2. Fiber Laser Cutting Machines

Fiber laser cutting machines use optical fibers as the laser medium, making them especially suitable for cutting metal materials.

  • Metal Fabrication: Cutting stainless steel, carbon steel, aluminum, copper, and brass sheets and tubes, widely used in manufacturing, automotive, and aerospace industries.
  • Electronics: Producing metal enclosures and internal structures for electronic devices.
  • Medical Devices: Cutting and shaping metal parts for medical instruments and implants.
  • Automotive Industry: Manufacturing automotive components such as gears, engine parts, and body panels.

3. Solid-State Laser Cutting Machines

Solid-state laser cutting machines use solid-state laser media, such as Nd

 

(neodymium-doped yttrium aluminum garnet) lasers, suitable for high-precision cutting and welding tasks.

  • Microelectronics Manufacturing: Cutting and processing semiconductor materials and microelectronic components.
  • Medical Instruments: Producing high-precision surgical instruments and miniature medical devices.
  • Jewelry Making: Fine cutting and engraving of metals and gemstones for jewelry design and production.
  • Research and Development: Used in scientific projects and the development of new materials requiring high precision.

Application Summary

Different types of laser cutting machines are suited for various materials and industries based on their laser source characteristics. CO2 laser cutting machines are mainly used for non-metal materials, fiber laser cutting machines focus on efficient metal cutting, and solid-state laser cutting machines excel in high-precision applications. Choosing the appropriate type of laser cutting machine can meet specific industry needs, ensuring efficient and high-quality cutting processes.

IV.what is laser welding process ?

Laser welding is a precise and efficient method of joining materials, typically metals, using a concentrated beam of laser light. A laser source, such as a solid-state laser, fiber laser, or CO2 laser, generates a high-intensity beam that is directed to the welding area via mirrors or fiber optics. The laser beam is focused to a small spot using lenses, creating a high power density that melts the material at the point of contact. As the material absorbs the laser energy, it heats up rapidly, forming a molten pool. The laser beam moves along the welding path, and as it moves away, the molten material cools and solidifies, forming a strong weld joint.

There are two main types of laser welding: conduction welding and keyhole welding. Conduction welding heats the surface of the material, and the heat conducts into the material, causing it to melt and form a weld, which is suitable for thinner materials. Keyhole welding involves the laser beam deeply penetrating the material, creating a small, vapor-filled cavity called a keyhole. The surrounding molten metal flows around the keyhole, forming a deep and narrow weld, ideal for thicker materials. In some laser welding processes, shielding gases like argon or helium are used to protect the weld area from oxidation and contamination.

Laser welding offers several advantages, including high precision, speed, and minimal heat-affected zone (HAZ). It can accurately weld intricate components, increase production rates, and reduce the risk of thermal distortion and material degradation. Laser welding is widely used in various industries, including the automotive industry for welding car body components and transmission parts, the aerospace sector for manufacturing aircraft components and turbine blades, the medical field for precision welding of medical instruments and implants, and electronics for welding small, delicate components like sensors and connectors.

V.which laser for wood cutting?

For cutting wood, CO2 lasers are the best choice. CO2 lasers use carbon dioxide gas as the laser medium and emit infrared light. This wavelength is well absorbed by organic materials like wood, making CO2 lasers highly effective for cutting and engraving wood.

Applications

CO2 lasers are widely used in various woodworking fields. In furniture manufacturing, CO2 lasers can cut and engrave intricate designs, ensuring components have precise dimensions and high-quality finishes. In signage, CO2 lasers can create detailed wooden signs with fine cuts and engravings, suitable for both commercial and personalized needs. For crafts and hobbies, CO2 lasers are ideal for making decorative items, models, and custom wooden pieces, offering exceptional precision and detail. Additionally, CO2 lasers are used in prototyping, allowing for the rapid creation of wooden prototypes for product design and development, thus accelerating the product development process.

Other Advantages

CO2 lasers are not only efficient and versatile but also provide high power and efficiency, capable of cutting various hardwoods and softwoods. They produce smooth cuts with minimal charring, making them ideal for applications requiring high-quality finishes. Furthermore, CO2 lasers are relatively cost-effective and widely available, enhancing their applicability in the woodworking industry.

VI.how laser cut metal?

Laser cutting metal is a precise and efficient method that uses a high-powered laser beam to cut through metal materials. First, a laser source, such as a fiber laser, generates a high-energy laser beam. This beam is directed to the cutting head via mirrors or optical fibers. The laser beam is then focused into a very small spot, creating a high power density that quickly heats and melts the metal at the point of contact. The cutting head, controlled by a computer numerical control (CNC) system, moves along a predetermined path, slicing through the melted metal. Meanwhile, assist gases like oxygen or nitrogen blow away the molten metal, prevent oxidation, and ensure a clean, smooth cutting edge. This entire process is highly efficient and precise, allowing for detailed cuts on various metal materials.

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