Ручний лазерний очищувач серії HC 2[кВт]

Ручний лазерний очищувач серії HC 2[кВт] - Image 2

Ручний лазерний очищувач серії HC 2[кВт] - Image 3

Ручний лазерний очищувач серії HC 2[кВт] - Image 4

Ручний лазерний очищувач серії HC 2[кВт] - Image 5

Ручний лазерний очищувач серії HC 2[кВт] - Image 6

Ручний лазерний очищувач серії HC 2[кВт] - Image 7

HC Series Handheld Laser Cleaner 2[kW]

Category Laser cleaning devices

This device precisely controls a high-energy pulsed laser beam that is directed at the surface of the object. No chemicals or mechanical friction are used during the cleaning process, avoiding the potential for chemical contamination or mechanical damage that is typical of traditional methods. This provides users with an effective, environmentally friendly and precise cleaning solution.

1.5-3 [kW] Laser power
22 [㎡/hour] Maximum cleaning speed
1.47 [kg] Cleaning gun weight
10 [m] Maximum length of optical fiber of cleaning gun

Productivity benefits

As a new generation of laser cleaning machines, this device is capable of removing oil, rust, paint, oxidation film, etc. Its pulsed laser beam is under precise control, ensuring effective cleaning.

1. High work efficiency

Fast response, adjustable pulse frequency to adapt to different materials and avoid over- or under-cleaning.

2. No damage to the substrate

The non-contact cleaning mode allows you to precisely remove contaminants without damaging the substrate.

3. Precise removal

Users can clean specific areas or special areas depending on actual needs.

4. Easy to operate

The manual cleaning gun weighs only 1.47 kg, the portable handle relieves workers from fatigue after long work, and the long optical cable allows you to work at a distance.

Mechanical advantages

1. Proven design

Highly integrated design that takes up less space, including laser generator, cleaning gun head, control unit and cooling components.
The manual cleaning gun supports 8 cleaning modes and 10 safety signals.
4 universal wheels provide 360° mobility and outdoor use.

2. Pulsed laser

A pulsed laser generator, as the name suggests, emits an intermittent laser beam and precisely controls the laser energy, concentrating it on the contaminated layer, with minimal thermal impact and without damage to the substrate.

3. Low operating costs

You can start cleaning by simply turning on the device, without the need for chemicals, manual grinding, or additional consumables.

Advantages of the management system

The developed in-house control system has many functions and a user-friendly interface to facilitate the work of operators on site.

1. Ease of operation

Precise control of peak power, scan width and cleaning path for the correct cleaning process.

2. Real-time monitoring

Supervision of laser generator, water cooler, etc.

3. 11 languages

Adapted for users from different countries and ensures seamless communication between man and machine.

Parameters	Models
Parameters	SF1500HC	SF2000HC	SF3000HC
Laser power (kW)	1.5	2	3
Laser wavelength (nm)	1080±10	1080±10	1080±10
Fiber core diameter (μm)	20	30	50
Cleaning gun weight (kg)	≤0.7	≤0.7	≤0.7
Gun cable length (m)	10	10	15
Max. bending size (L × W, mm)	1500×1250	2000×1250	2500×1250
Equipment weight (kg)	190	190	235
Dimensions (L × W × H, mm)	954×715×1080	954×715×1080	1210×715×1080
Cooling type	Water cooling	Water cooling	Water cooling
Languages	11 languages including Chinese, English, French
Power Supply	Three-phase 380V, 50/60Hz

Additional benefits

1. Intelligent connection

The auto-start I/O interface is designed to connect to an industrial robot with just one button press, making the cleaning process automated.

What is a fiber laser cleaner?

A fiber laser cleaner is a device that uses a high-energy laser beam to remove dirt, rust, coatings, or other contaminants from the surface of materials. It works non-contact, is environmentally friendly, and is extremely effective, making it widely used in industrial cleaning.

How does fiber laser cleaning work?

Fiber laser cleaning is performed by directing a high-energy laser beam onto the surface of a material. The laser rapidly heats and vaporizes or decomposes rust, coatings, or contaminants, effectively removing them with minimal impact on the underlying material.

Main areas of application of fiber laser cleaners

Fiber laser cleaners are suitable for a variety of tasks, including:

Removing rust from metal: cleaning surfaces made of steel, cast iron, aluminum, etc. from rust.
Surface cleaning: removal of grease, dust, oxide layers and other contaminants.
Removing coatings: removing paint, plating, or other layers from materials.
Surface preparation before welding or cutting: cleaning to improve the quality of welded or cut joints.
Restoration of cultural artifacts: careful removal of dirt from art objects without damaging their surface.

Does laser cleaning damage the base material?

With precise power and frequency settings, fiber laser cleaning effectively removes contaminants without damaging the underlying material. It is particularly well suited for metal surfaces and typically does not cause mechanical damage or heat-affected zones (HAZ).

What are the advantages of fiber laser cleaning compared to traditional methods?

Environmental friendliness: Does not require the use of chemicals and does not produce harmful emissions.

Efficiency: High cleaning speed with excellent results.

Contactless: There is no direct contact with the surface, which prevents damage to it.

Precision: Ideal for complex shapes and hard-to-reach places.

Low cost: Minimal maintenance costs over time.

How does power selection affect fiber laser cleaning efficiency?

The power of a fiber laser determines its cleaning ability:

Low power (50–100 W): Suitable for light dirt or delicate cleaning of surfaces.

Medium power (200–500 W): Optimal for removing medium thickness rust or coatings.

High power (1000 W and more): Designed for removing thick coatings or heavy rust buildup.

The choice of power should be made taking into account the specific task and material characteristics.

What are the main differences between pulsed and continuous laser cleaning systems?

🔹 Pulsed laser cleaning machines:

Ideal for working with delicate or valuable materials.
Often used in aerospace, electronics, and restoration of cultural artifacts.

🔹 Continuous (CW) laser cleaning machines:

More suitable for heavy industrial tasks.
Widely used in manufacturing, shipbuilding and large-scale metal processing.

Is fiber laser suitable for cleaning non-metallic materials?

Although fiber laser machines are primarily used for cleaning metal surfaces, they can also process some non-metallic materials such as rubber or stone if the laser parameters are set correctly. However, special care should be taken when working with flammable or explosive materials.

What is the service life of a fiber laser cleaning machine?

The main component of a fiber laser cleaning machine is the fiber laser, which typically has a service life of more than 100,000 hours. With proper maintenance, this ensures long-term and reliable use of the equipment.

Is fiber laser cleaning maintenance difficult?

Maintenance of fiber laser machines is relatively simple and includes:

Regular cleaning of optical lenses.

Checking and maintaining the cooling system.

Maintaining a clean and stable working environment for the fiber laser.

Does laser cleaning pose risks to the environment or operators?
Fiber laser cleaning is an environmentally friendly technology as it does not create chemical pollution. However, operators should wear safety glasses to avoid laser beam exposure and ensure adequate ventilation to reduce inhalation of dust or fumes.