The 3-in-1 handheld laser welding cleaning and cutting machine is composed of a fiber laser generator, a handheld laser gun, a water cooler, and a 3-in-1 control system for laser welding, cleaning, and cutting. The machine is easy to operate and portable and can provide you with flexible and innovative laser solutions.

★High energy density, low heat input, small amount of thermal deformation, and narrow melting depth in the heat and heat affected zone of the melting zone.
★The cooling rate is high, so that the weld structure can be fine and the joint performance is good.
★ Compared with contact welding, laser welding eliminates the need for electrodes, reducing daily maintenance costs and greatly improving work efficiency.
★The weld is fine, the penetration is large, the taper is small, the precision is high, the appearance is smooth, flat and beautiful.
★ No consumables, small size, flexible processing, low operating and maintenance costs
★The laser is transmitted through the optical fiber and can work with the assembly line or the robot.
★ The touch switch is equipped with a safety clip, and the laser beam can only be emitted when the welding nozzle touches the metal.
★ Red light positioning is used to verify the position during welding. 

Weld penetration table:

The handheld laser welding machine can be widely used in the complicated and irregular welding processes of cabinets, kitchens and bathrooms, stair elevators, shelves, ovens, stainless steel door and window guardrails, power distribution boxes, stainless steel home appliances and other industries.it has the advantages of simple operation, beautiful welding seam, fast welding speed and no consumables.
It is used in thin stainless steel, iron, For welding of metal materials such as galvanized sheet,
it can perfectly replace traditional argon arc welding, electric welding and other processes.

Install welding nozzles and welding focus lens for welding works      Install cleaning lens and cleaning tools for clean works

Welding with gun                                                                                       Laser Cleaning

CNC controller:
Pulse and interval time can reach 0.01 seconds; There are wire feeding and wire stop switching functions, which is simple and convenient.
Dual drive wheel feeding system,applicable to a variety of diameters.

 

Max Laser Source

It has higher photoelectric convers-

ion effciency, better and more stable beam quality, and stronger anti-high-reflection ability. At the same time, it introduces an optimized second-generation optical fiber transmiss-

ion system to ensure a more stable and precise cutting effect in thick plate cutting.

Industrial Water Chiler:
With a complete cooling system, the whole machine is stable, efficient and durable.
Simple to us,stable performance energy saving and high efficiency.
 

 

 

laser welding 

The Difference between Laser Welding and Ordinary Welding

Laser welding and ordinary welding are two fundamentally distinct techniques employed in the realm of material joining, each with its own unique characteristics, applications, and technological underpinnings.

 

Laser welding harnesses the power of a highly concentrated laser beam, generated through specialized laser systems such as fiber lasers, Nd:YAG lasers, or CO lasers. This intense beam delivers a precise and highly localized heat source, enabling rapid melting and fusion of materials at the molecular level. The process is characterized by its high energy density, which allows for deep penetration with minimal heat input to the surrounding areas. As a result, laser welding produces welds with extremely narrow heat - affected zones (HAZs), typically measuring only a fraction of a millimeter. This minimizes thermal distortion, making it particularly suitable for the fabrication of precision components in industries such as microelectronics, where dimensional accuracy is of paramount importance. Additionally, the non - contact nature of laser welding eliminates the need for physical contact between the welding tool and the workpiece, reducing the risk of mechanical damage and contamination. The process can be precisely controlled through computer - numerical control (CNC) systems, enabling the creation of complex weld geometries with micron - level precision.

 

In contrast, ordinary welding, which encompasses a wide range of traditional welding methods such as shielded metal arc welding (SMAW), gas tungsten arc welding (GTAW), and gas metal arc welding (GMAW), relies on the application of heat and the addition of filler materials to create a bond between workpieces. These methods typically involve the use of an electric arc or an open flame as the heat source. For instance, in SMAW, an electric arc is struck between a consumable electrode covered in a flux coating and the workpiece. The flux protects the weld pool from atmospheric contamination and provides additional chemical elements to enhance the properties of the weld. GTAW, on the other hand, uses a non - consumable tungsten electrode and an inert gas shield to protect the weld area. The addition of filler material in ordinary welding can affect the chemical composition and mechanical properties of the weld joint, often requiring careful selection of the filler metal to match the base material. Compared to laser welding, ordinary welding processes generally have larger HAZs, leading to greater thermal distortion and a higher likelihood of affecting the mechanical properties of the surrounding material. They also tend to be slower and less automated, often relying on the skill and experience of the welder to control parameters such as arc length, welding speed, and heat input.

 

From a performance perspective, laser welding offers several distinct advantages. Its high - speed processing capabilities make it well - suited for high - volume production environments, significantly increasing production efficiency. The ability to weld dissimilar materials, such as metals with different melting points and thermal conductivities, is another notable benefit. In the automotive industry, for example, laser welding is widely used to join lightweight materials like aluminum alloys and high - strength steels, enabling the production of fuel - efficient vehicles without sacrificing structural integrity. Additionally, laser - welded joints often exhibit superior mechanical properties, including higher tensile strength and fatigue resistance, due to the fine - grained microstructure formed during the rapid solidification process.

 

Ordinary welding, while less precise and efficient than laser welding in many respects, still has its own merits. It is a more accessible and cost - effective option for many applications, especially in small - scale fabrication, repair work, and construction projects where the requirements for precision and speed are less stringent. The wide availability of welding equipment and the large pool of skilled welders make it a practical choice for a variety of industries. Moreover, certain types of ordinary welding, such as SMAW, can be performed in outdoor or remote locations without the need for complex power sources or specialized equipment, providing greater flexibility in field applications.

 

 

 

 

 

 

 

MIG, TIG and Laser Welding
Comparison
	Speed	Cost	Ease	Strength	Precision	Thick material	Thin Material
MIG	√	√	√	×	×	√	×
TIG	×	×	×	√	√	×	√
Laser Welding	√	×	√	√	√	√	√

Packaging & Shipping

Company Profile

Established in 2017, ALLWINCNC is a manufacturing company dedicated to the production of plasma and laser consumables. Our focus extends far beyond one-time transactions; we strive to forge enduring partnerships with our customers, believing that mutual growth and trust are the cornerstones of sustainable business.

 

At ALLWINCNC, our core philosophy revolves around collaboration. We firmly believe that through close cooperation, we can achieve shared success for our customers, shareholders, and employees alike. This commitment to mutual prosperity drives everything we do, from product development to customer service.

FAQ

1), Q: Do you provide after - sales support?
A: Absolutely! We're more than happy to offer professional advice. Moreover, we have a team of highly skilled technicians stationed globally. Your machines' smooth operation is crucial for your business success, and that's our top priority.

 

2), Q: I'm not certain if this machine is appropriate for my work.
A: No need to worry. Just let me know your work materials, the maximum working area, and the cutting/welding thickness requirements. Based on that, I'll suggest the most suitable machine tailored to your needs.

 

3), Q: Are you a factory or a trading company?
A: We are a factory specialized in manufacturing CNC cutting and welding machines. With 13 years of experience in the industry, we ensure top - notch quality and competitive prices.

 

4), Q: Once I receive the machine, what should I do if I'm unsure how to operate it?
A: Along with the machine, you'll receive an operation video and a detailed manual. Our engineers also offer online training sessions. If necessary, we can dispatch our engineers to your location for on - site training, or you're welcome to send your operators to our factory for in - depth training.

 

5), Q: How can I select the right model?
A: Please share a photo of the product you want to process or clearly describe your requirements. Our experts will then provide you with a well - informed recommendation.