Varisigns 3kw Fiber Laser Welder Handheld for Thicker Materials

Get precise welds on thicker materials with Varisigns 3kw Fiber Laser Welder Handheld. As a factory, we deliver high-quality welding solutions. Order now!
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PRODUCTS DETAILS

  • Overview
  • Product Description
  • Detailed Photos
  • Product Parameters
  • Packaging & Shipping
  • FAQ
Overview

Basic Info.

Model NO.
GY-WF3000C
Laser Classification
Optical Fiber Laser
Type
Portable Welding Machine
Materials Application
Stainless Steel, Mild Steel, Aluminum, Brass
Package Includes
Welder, Wire Feeder, Consumables
Functions
Welding, Cutting, Cleaning
Shield Gas Required
Argon or Nitrogen
Transport Package
Plywood
Specification
1540*750*1510mm
Trademark
Varisigns
Origin
China
HS Code
8515809090
Production Capacity
5800units/Year

Product Description

Best Fiber Handheld Laser Welder for Sale

Product Description

Handheld laser welders are revolutionary tools transforming the welding industry. They offer unparalleled precision and versatility, making them indispensable across various sectors. 

The hand held welder represents a groundbreaking welding technology leap, offering unprecedented precision, versatility, and efficiency. The applications of fiber laser welders across various industries continue to expand, promising a future where precision welding becomes even more accessible and efficient.

 

Detailed Photos

Varisigns 3kw Fiber Laser Welder Handheld for Thicker Materials

Advantages of Handheld Laser Welders

The precision in welding provided by handheld laser welders surpasses traditional methods. Their ease of use and cost-effectiveness make them a preferred choice for professionals.
Leveraging the principles of laser technology, these devices utilize various components to generate focused beams for welding applications.

Key Features to Consider

Power output, portability, and safety features are crucial factors to consider when selecting a handheld laser welder.

Handheld laser welders' ability to improve process defects and offer high-speed operations has made them indispensable in industries requiring precise and efficient welding. These tools enable both professionals and ordinary workers to achieve superior welding results in various applications.

Varisigns 3kw Fiber Laser Welder Handheld for Thicker Materials
Varisigns 3kw Fiber Laser Welder Handheld for Thicker Materials
Handheld laser welders find versatile applications across multiple industries due to their ease of operation, fast welding speeds, and precise results.

Some key sectors include: 
Used in the production of automotive parts, electronics, and machinery. Application in fabricating steel structures, joining metal components, and repairing. Assembly and repair of medical devices requiring precision welding. Welding kitchenware and bathroom fixtures with high precision. Used for spot welding in car manufacturing, repairs, and modifications.
Handheld laser welders now incorporate cutting and cleaning functions alongside welding. These functionalities cater to diverse industrial needs. 

Laser Cutting: The handheld devices possess cutting capabilities, allowing precision cutting of various materials such as metals and alloys up to a quarter-inch thickness. 

Laser Cleaning: These devices also incorporate cleaning functions, offering an efficient "green" method to remove contaminants, rust, paint, and other surface impurities.

These multifunctional handheld laser welders offer a comprehensive solution for various industrial applications by combining welding, cutting, and cleaning capabilities into a single device, enhancing efficiency and versatility.
Varisigns 3kw Fiber Laser Welder Handheld for Thicker Materials

 

Product Parameters

Model GY-WF1000C GY-WF1500C GY-WF2000C GY-WF3000C
Laser Power 1000W 1500W 2000W 3000W
Laser Source MAX/Raycus
Laser wavelength 1080nm fiber laser
Laser Mode Continuous Mode & Pulsed Mode
Pulse Width 0.2~50ms
Pulse Frequency 1~5000Hz
Welding Spot Diameter 0.2~5.0mm adjustable
Locating System Red laser beam
Flexible Worktable Support co-work with the robot arm
Fiber Cable Length 10 meters (33′) or custom-made
Cooling Mode Built-in Water Chiller
Welding Gun Wobble laser gun with QBH fiber connector
Additional Functions Auto wire feeder system (Double feeding on WF3000C)/Cutting/Cleaning
Welding Thickness Refer to Parameter Settings below
Power Consumption 5KW 6KW 7KW 9KW
Power Requirement Single phase 220V ±10%, 40A 3-phase 380V ±10%, 60A
Footprint 900*480*820mm (2.95'*1.57′)
Gross Weight 200KG (440lbs)
Material Type Material Thickness
(mm or inch)
Peak Power
WF1000C
Peak Power
WF1500C
Peak Power
WF2000C
Peak Power
WF3000C
Scan Speed
(mm/s)
Scan Width
(mm)
Stainless Steel 0.8 or .032'' 200 200 200 200 300~400 2.5
1 or .040'' 400 400 400 400 300~400 2.5
2 or .080'' 600 600 600 600 300~400 3
3 or .118'' 900 900 900 900 300~400 3
4 or 0.16'' / 1200 1200 1200 300~400 3
5 or 0.20'' / / 1600 1600 300~400 3
6 or 0.24'' / / 1900 1900 300~400 4
7 or 0.28'' / / / 2300 300~400 5
8 or 0.32'' / / / 2600 300~400 5
9 or 0.35'' / / / 2900 300~400 5
Carbon Steel 0.8 or .032'' 200 200 200 200 300~400 2.5
1 or .040'' 400 400 400 400 300~400 2.5
2 or .080'' 700 700 700 700 300~400 3
3 or .118''   1200 1200 1200 300~400 3
4 or 0.16'' / 1500 1500 1500 300~400 3
5 or 0.20'' /   1700 1700 300~400 3
6 or 0.24''     2000 2000 300~400 3
7 or 0.28''       2600 300~400 3
8 or 0.32''       3000 300~400 3
Brass 1 or .040'' / 1200 1200 1200 300~400 3
2 or .080'' / / 1600 1600 300~400 3
3 or .118'' / / 2000 2000 300~400 3
4 or 0.16'' / / / 2500 300~400 3
5 or 0.20'' / / / 3000 300~400 3
Aluminum 1 or .040'' 800 800 800 800 300~400 3
2 or .080'' / 1200 1200 1200 300~400 3
3 or .118'' / / 1800 1800 300~400 3
4 or 0.16'' / / / 2400 300~400 3
5 or 0.20'' / / / 2800 300~400 3

Packaging & Shipping

Varisigns 3kw Fiber Laser Welder Handheld for Thicker Materials

FAQ

1. Are handheld laser welders safe to use?
Handheld laser welders are generally safe when used correctly, but they require adherence to strict safety protocols.
Safety measures include:
1). Protective Gear: Always wear appropriate safety gear, including laser safety glasses that filter the specific wavelength of the laser.
2). Training: Proper training and certification in laser safety protocols are essential for operators.
3). Environmental Control: Ensure the work area is well-ventilated and free from combustible materials.
4). Safety Officers: Organizations using high-power handheld laser welders should appoint laser safety officers per ANSI standards.
5). Eye Protection: Avoid direct exposure to the laser beam and prevent it from reaching anyone's eyes.

Adhering to safety guidelines, such as wearing protective gear and implementing safety protocols, significantly reduces risks associated with handheld laser welders. However, negligence or improper use can pose potential hazards.

2. What industries benefit the most from handheld laser welders?
1). Automotive: Used in manufacturing parts like exhaust systems, battery cells, and body frames, ensuring precision and strength.2). Electronics: Enabling precise, small-scale welding for electronic components and circuitry, ensuring durability and reliability.
3). Medical Devices: Employed for joining tiny components in medical devices, ensuring hygienic and strong welds.
4). Aerospace: Utilized for lightweight materials and intricate joints, maintaining the structural integrity of aircraft components.
5). Metal Fabrication: Used in creating high-strength and clean welds in metal fabrication for various applications.
6). Household Hardware: Found in kitchen utensils, bathroom fixtures, and stainless steel home products, ensuring durable and aesthetically pleasing welds.

The handheld laser welding technology's precision and adaptability make it invaluable across industries demanding intricate, durable, and high-quality welds.

3. Can handheld laser welders replace traditional welding methods entirely?
While handheld laser welders offer notable advantages over traditional welding methods, their complete replacement is unlikely due to certain limitations and distinct applications:
1). Precision and Efficiency: Handheld laser welders offer higher precision, faster heating, and cooling rates, enhancing efficiency.
2). Specific Applications: They excel in applications requiring delicate work, small-scale welding, or working with heat-sensitive materials.
3). Limitations: They might struggle with thicker materials or high-volume production compared to traditional methods, limiting their universal adoption.
4). Cost Consideration: Cost-effectiveness, setup complexity, and maintenance could influence their widespread adoption in certain industries.
5). Operator Skill: Operating handheld laser welders requires specific training and expertise, affecting their feasibility in all scenarios.

In conclusion, while handheld laser welders offer unique advantages, their complete replacement of traditional welding methods across all industries seems improbable due to varying requirements and limitations in specific applications.

4. How often should a handheld laser welder undergo maintenance?

Handheld laser welders require regular maintenance to ensure optimal performance and safety. The frequency of maintenance can vary based on usage, manufacturer recommendations, and the specific model of the machine:

1). Regular Inspection: Conduct routine checks and inspections to detect any wear, damage, or deviations in performance. Some sources suggest monthly inspections.
2). Scheduled Maintenance: A comprehensive maintenance schedule, often annually, is recommended by manufacturers. This includes thorough cleaning, parts replacement, and calibration.
3). Usage Intensity: The frequency might increase with heavier usage or harsh working environments. High-volume usage may require more frequent maintenance.
4). Manufacturer Guidelines: Adhere to the manufacturer's guidelines and recommendations outlined in the user manual for specific maintenance schedules.
5). Proactive Care: Proactive care includes cleaning optical components, ensuring proper cooling systems, and monitoring for any signs of deterioration.

Ultimately, the best practice is a combination of routine checks, adherence to manufacturer recommendations, and adjustment based on the specific usage and condition of the handheld laser welder.

5. What advancements can we expect in handheld laser welding technology in the coming years?
1). Enhanced Process Monitoring and Control: Future handheld laser welders are expected to integrate advanced monitoring systems for real-time data collection and analysis, optimizing welding parameters.
2). Improved Application Range: Continuous advancements may expand the range of materials and thicknesses that handheld laser welders can efficiently handle. This could include more complex alloys and thicker materials.
3). Efficiency and Speed: Ongoing innovations are anticipated to enhance the efficiency and speed of handheld laser welding processes, enabling quicker and more precise welds.
4). Portability and Ergonomics: Future designs may focus on making handheld laser welders more ergonomic and portable, improving user comfort and accessibility in various working environments.
5). Integration of Hybrid Technologies: Integration with other technologies like laser-arc hybrid welding could further enhance capabilities, addressing limitations and broadening applications.

These advancements are poised to elevate the performance, versatility, and accessibility of handheld laser welding technology, making it a more viable and efficient solution across various industries.

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