If you ask us about the most innovative modern-day technology with proven expertise in various industries - from medical to civil - it must be laser technology. Laser technology is slowly gaining momentum in numerous sectors, including the sheet metal processing industry, owing to its higher accuracy and precision.
You're at the right place if you are an entrepreneur thinking of switching to CNC laser cutting machines - particularly vertical mills that require higher precision and control. But before we move on to selecting the machine for your business, let's discuss what it is and how it is different from a regular cutter.
The word CNC stands for Computer Numerical Control. Thus, laser cutters are programmed to mark, engrave, and cut metal sheets and other materials with the help of high-power laser beams to form the desired shapes. Instead of sharp cutting tools, laser cutters use heat to cut and shape metals and are relatively more precise and faster than traditional metal cutters.
Here we talk about some crucial aspects that you need to keep in mind while picking the perfect laser cutting machine suited to your company's demands and requirements.
Before buying alaser cutting machine, you should consider your requirement criteria. Do you require a vertical mill for your hobby or small-scale business, or do you need one for a sufficiently large-scale business? This will dictate the pricing of the laser machines. Nowadays, even DIY laser machines are available and work great for those who use the equipment for hobbies or small-scale businesses.
The machine's power and accuracy further determine the price point. So, even if you are into a small business, you should get a high-power laser machine if your work demands higher precision alongside high power. Alternately, some tasks, especially cutting the round edges and corners, require precision but lower power. In such cases, you should go for a low-power but high-precision laser machine, especially vertical mills that allow you to control the design and the sheets you're cutting.
There are two kinds of CNC laser cutting machines - single head and double head. Do your research on both before investing.
Since the laser technology market is fast-growing, you will find new launches every other day. Many people might insist you consider getting a new CNC laser cutting machine as a form of capital investment. While this parameter makes sense, at the end of the day, your decision should be based on your budget.
For example, the higher the power of a laser cutting machine, the more is the price. Furthermore, other configurations such as chillers, dust collectors, etc., will also be impacted as the power increases. The price of mending a high-power laser machine in case of any discrepancy beyond the warranty period is also high.
Under such circumstances, you must assess your purchasing power and go for a machine that will prove worthy in the long run - one that can be repaired quickly and whose parts are easily available.
This is especially important if you purchase a high-power laser cutting machine for the first time. The more a machine's power, the higher its tendency to heat up following friction. Hence, you must check a machine's cooling system and ventilation before purchasing.
A vertical millmachine equipped with a superb cooling system is also cost-effective in the long run since the chances of it getting damaged due to friction are low.
While it may seem a no-brainer, we often tend to overlook their storage or floor space while picking up machines for work. As a result, the workspace becomes too claustrophobic to work in and move about freely.
The good news is that nowadays, cnc fiber laser cutting machines are eavailable in various sizes and styles, even the relatively high-power ones. Hence, you can choose from a range of options before pinpointing the perfect one for you.
With the growing demand,the laser industry is seeing a plethora of brands and manufacturers coming up. The high competition has also created a space for duplicate or sub-par products to seep into the market. Considering you are here to purchase your first CNC laser cutting machine, you should make it a point not to fall for the lowest price tags but to strive for quality. Going for reputed or known brands might be great for first-timers. Or, if you know your way about machines, you can delve deeper into the market and research your way to the product suited to your requirements.
Laser machines are in high demand right now. The productivity and precision you get with a laser machine are incomparable. However, although the choice is much more varied now than ever before, with newer innovations seeping in every day, the vast number of manufacturers with fluctuating pricing and rates make it tricky for a novice to get their hands on the best machine. This article has tried to make buying your first CNC laser cutting machine a relatively easy affair.
If you decide to start production on a CNC laser cutting machine, you will inevitably face serious competition. Until 10-15 years ago, it was possible to make a fortune in laser cutting without much effort, even with lackluster results. But now everything has changed.
Today's laser cutting market is much more demanding when it comes to the quality of the end result.
Customers are no longer willing to buy plywood products with a burnt edge or metal products with drossed edges. The market is still highly lucrative, but to compete in this market, the choice of equipment must be taken seriously.
The CNC laser cutting machines market is overfull of similar CNC lasers with the same-type descriptions. Such equipment is expensive, and, before you purchase it, you need to figure out what to point out. And this article will help you with that.
What is a CNC CO2 laser and how does it work?
CONTENTS:
Advantages of CNC laser cutting
What is produced with CNC laser cutting machines?
How to choose a laser cutting machine, basic criteria
Top CNC lasers for cutting:
Conclusion
FAQ
If you choose the right type of emitter and other parameters, the laser cutter will cut most materials with minor exceptions.
What kind of material a CNC laser cutter works with depends on the emitter! Some machines do not cut metal, while others do not cut wood. Read more about this in the section "emitter type"
Laser cutting machines are used both for simple cutting of material and for creating complex products.
First of all, decide what you want to do with a laser machine and what materials you want to process. This will determine most of the parameters of your future laser machine and, above all, the type of laser emitter.
Laser cutting machines are divided into two basic types: CO2 and fiber optic. The type of emission determines which materials the machine can cut.
Normally, CO2 laser cutting machines are not capable of cutting metals.
An exception to this rule are the Wattsan NC series hybrid CO2 laser cutters. They cut metals up to 2 mm thick thanks to a special metal laser head, an auxiliary gas (oxygen), and laser power from 130 to 180 watts. In addition, they can cut plywood up to 15 mm and plastics up to 25 mm.
The NC-series hybrid laser cutting machines are available in two work area sizes:
If you are interested in other work area sizes, let Virmer's manager know, and, thanks to our cooperation with Wattsan, we can produce a machine with the desired work area size.
If you are interested in learning more about CO2 laser machines, we recommend reading the article «What is a CNC CO2 laser and how it works»
How to choose a fiber metal cutter
It is impractical to use fiber laser cutters for other materials, as the cost of such equipment is many times higher than CO2 laser machines. In addition, because of the unsuitable wavelength, fiber lasers do not work with most non-metallic materials.
Please note that CO2 emitters for cutting are claimed to last between 3,000 and 10,000 hours (4 to 13.6 months) depending on brand and wattage, and fiber optic emitters are claimed to last up to 100,000 hours (11.4 years).
Once you have decided on the type of emission, you have to work out how much power you need.
The power required depends on the thickness of the material and directly affects the operating speed.
CO2 laser machines are designed on the principle of Flying Optics; they have a system of mirrors which reflect the laser beam using mirrors attached to various, including moving, parts of the housing. As the laser beam travels in the air, the beam inevitably scatters and loses the more of its power the greater distance it travels. For this reason more powerful laser tubes are required for machines with larger work area sizes.
For productive cutting on machines with a work area of up to 600x900 mm, emitters with a power of 40 to 120 W are used. For machines with a larger work area, laser tubes with a power of 100 to 180 W are used.
There is a "conventional" formula for calculating the power required, according to which 10 watts of power are consumed for every 1 mm of plywood thickness. For most plastics, this is conventionally 1.5 mm per 10 watts.
In order to extend the service life of the laser tube, we recommend using it at no more than 80% of its power. Keep this in mind when calculating the required power.
For example, the Reci W2 90W laser tube will cut plywood up to 8-10 mm, but the recommended maximum thickness is 8 mm.
Also note that if the laser tube has two power rates, e.g. 90-100 W, the first number is the nominal power and the second number is the maximum power. Most of the time, the laser operates at its nominal power.
The required power of a fiber laser will depend on the thickness and the type of metal. Mirror polished stainless steel, for example, is more difficult to cut than ferrous steel, as it has a higher reflectivity.
The power of fiber optic emitters varies from W to W. The operating speed is not as easy to calculate as with CO2 laser machines, but there are tables that show the type of material, the laser source power, and the auxiliary gas. These tables show what thickness and at what speed can be cut with certain input parameters.
For example, a 1kW machine will cut 1 mm of stainless steel at 20 m/min. At 3kW, the same stainless steel sheet can be cut at 35 m/min, while a 6kW emitter will cut 1 mm stainless steel at 60 m/min.
Depending on the type of metal, the speed of the laser cutter will be different! In order to get help in choosing the emitter power, please contact your Virmer manager.
The next thing to consider when choosing is the size of the work area.
The size of the work field determines the maximum sheet size of the material you will be able to process. For example, if you want to cut corrugated cardboard boxes, then the Wattsan Flat Bed with a work field of x mm is the best choice, because the net of one box will be quite large. And if you need to cut packaging for small souvenirs, then the Wattsan LT with a work field of 600x900 mm will be enough.
Consider the maximum size of the final product when selecting the size of the work area of the machine.
The size of the work field will also determine whether or not you need a separate work place in the workshop to pre-cut the material. For example, the Wattsan LT large-format laser cutter has a through table with a work field width of mm. This means that you can cut sheets of most standard materials on this machine if you pull them through the through table.
The larger the work area of the laser machine, the less often you need to change material, which speeds up the production process.
To speed up the process of material change when working on fiber laser cutters, we recommend looking at machines with interchangeable tables, such as the Wattsan Tablechange.
When choosing a machine, pay special attention to the design of the frame and bed of the laser cutting machine. They affect the accuracy of work, especially during continuous operation.
CO2 laser cutting machines must have an internal reinforcement frame. It is quite difficult to see it without disassembling the entire machine, but its presence can be easily checked - try shaking the machine with your hands. A model with an internal reinforcement frame is virtually impossible to shake by hand. If there is no frame inside, the machine will wobble.
The lack of internal frame reinforcement leads to a rapid drop in cutting accuracy.
The reliability of the machine is also affected by the housing itself, that is, the housing material and its thickness. The best solution for the housing is steel with a thickness of at least 2 mm. On Wattsan CO2 laser machines, for example, the bed thickness is 2.9 mm.
You will get efficient and thoughtful service from Wanxuan.
The next element of the machine that is subject to constant loads is the gantry, because it is where the working head is attached. The thickness of the gantry can easily be checked by opening the side cover of the machine. A thin gantry will deform over time, which reduces accuracy and repeatability of work.
With a profile gantry up to 7 mm thick, a robust housing, and frame construction, Wattsan machines are designed to work around the clock. They have a service life of over 10 years without loss of precision.
A laser machine for metal cutting is subject to much more load, from the weight of the material itself to the idle movements of the portal at a speed of up to 120 m/min.
A metal laser machine must not only withstand the load of material and movements of the laser head, but also eliminate vibrations so that work accuracy is not compromised.
Wattsan laser metal cutting machines have an all-welded frame with a cross section of rectangular pipes up to 10 mm. Inside the frame there are reinforcement baffles every 400 mm. To relieve the stress on the metal, the finished frame is annealed in a special furnace with strict temperature control.
The metal laser machine gantry is more solid compared to CO2 machines. The best modern solution for a fiber laser machine would be an aluminium profile gantry; it is lightweight, robust, and not subject to oxidative processes.
When it comes to the speed of laser cutting machines, it is important not to confuse speed of operation with idle speed. Generally, operation occurs at much lower speeds than idling. For example, the idle speed of a CO2 laser machine reaches 500 mm/sec, but you will cut 3 mm thick plywood at about 35 mm/sec, depending on the power of the emitter.
Laser cutting speeds will vary, depending on the material, its thickness, and the power of the laser emitter.
All of the above is also true for fiber optic lasers. But for this type of equipment, the idle speed is more important for some tasks. For example, if it is necessary to cut holes in the corners in the sheathing of any metal structures, in this case the machine needs to move around the entire work field from corner to corner, and the operation speed will directly depend on the speed of idling and acceleration.
CNC lasers are complex equipment in terms of machine tool building, and all the difficulties, as always, lie in the details. The most important thing is to calculate the loads and choose all the components correctly so that they fit each other and the loads.
For example, the Wattsan fiber laser cutting machines are equipped with Mitsubishi servo motors. It would seem that this is already good, because this is a reliable brand, and its mere presence speaks of the quality of the machine. But no, if the rest of the machine components are not designed for the loads that these engines will give, then such a machine will not last long.
Wattsan engineers have been designing, manufacturing, and refining their machines for more than 20 years.
This allows the company to take a strong position in the market and be responsible for their machines. All machine components are carefully designed and tested under maximum loads. Everything, from the engine to the end sensors, has been chosen according to the principle of sufficiency, which means that the best possible parts have been selected to complete the machine, without chasing after expensive brands.
If you would like a thorough consultation, call: + or е-mail: .
Laser cutting programmes are usually not very difficult to learn. However, without experience, it will be difficult to master all the functions and it may take considerably longer than if you learn from professionals. Therefore Virmer recommends training with our engineers.
You can receive training when commissioning the machine or book a full in-depth training course.
Check with our managers for more information by: +, е-mail: .
The last thing to consider when buying a laser machine is the reliability of the supplier.
When buying a machine it is important not only to get a quality product, but also to be sure of the supplier's support should you need it. The main characteristics that speak for reliability are experience and production volumes, warranty and service, as well as commissioning and training.
Pay attention to those who have been in production for a long time. It is these companies that value their reputation and, thanks to their experience, know how to make really high-quality equipment.
High quality equipment is inevitably in demand. Find out how many machines the manufacturer sells and in which regions. Doubts may be caused by small production volumes and local limitations of the supplier.
Specify whether the supplier will be able to implement its warranty obligations in your region and whether it has post-warranty services.
Setting up a laser machine is not too difficult, but it is definitely not a task for someone without experience. Check if the supplier can provide commissioning, and if he has a training service for the machine.
Virmer is ready to send engineers anywhere in Europe to help you with your tasks.
It is difficult to determine which CNC laser cutting machine is needed outside the context of its use. Therefore we have highlighted the top machines depending on the material to be processed.
The size of the work area is 600x900 mm, the power of the laser tube is 90-100 W. It is equipped with an automated lifting table that can be lowered by 160 mm, which allows you to work with thick material, for example, with wood, as well as to install a rotary device for machining cylindrical workpieces. Suitable for small or medium series production. Designed for 24-hour workload throughout the entire service life of the machine.
This model costs around € 5 213, for the relevant price and details of the machine, visit our website.
Is notable for increased productivity due to two laser heads working simultaneously. This design doubles the speed of production. The size of the work area is x mm, and the through hole in the housing at worktable level allows you to pull materials of any length and width up to mm, for example, a standard sheet of plywood.
The Wattsan Duos LT laser cutter is designed for medium and large-scale production lines.
The Wattsan Duos LT costs around €9 151 , for the relevant price and details of the machine, visit our website.
Wattsan CO2 laser machines are designed specifically for continuous round-the-clock work. Virmer is the official dealer of the Wattsan factory in Europe.
Laser cutting of acrylic. How and why does an acrylic cutting laser machine work?
This model is equipped with a static table and is therefore marked ST. The static table cannot be lowered and cuts materials up to 40 mm thick. However, in most cases this is sufficient for working with plastics. The exception is foam rubber or foam, and then pay attention to Wattsan machines marked LT (Lifting Table). Also, on request, we can equip the machine with a second working head to speed up work.
The machine costs around €6 043, for the relevant price and details of the machine, visit our website.
The work field size of x mm allows you to work with plastic sheets without pre-cutting. This saves time and space in the workshop. The machine is designed for the manufacture of large items or for large-scale production of small items. Even with this large work area, the Wattsan FlatBed maintains its accuracy throughout its service life thanks to the experience and development of Wattsan's design engineers.
This model costs around €16 747, for the relevant price and details of the machine, visit our website.
CO2 machines are also suitable for cutting textiles, leather, and leatherette. But they cannot cut metals.
This is the basic model of CNC metal laser machines. The size of the work field is x mm, the power is from to watts. A protective cabin is required for machines above W. Positioning accuracy: 0,02 mm; idle speed: 60 to 80 m/min. The operating speed depends on the power and metal thickness and is up to 60 mm/s.
Check the relevant price with Virmer managers: ; what’s app +. More information about this model can be found on our website.
Wattsan engineers have been designing, testing, and refining machines for more than 20 years. This extensive experience has enabled them to come up with the most successful design solutions: all components are matched to the loads, the all-welded reinforced frame is annealed to relieve stress on the metal, the servomotors with the planetary gearboxes eliminate vibration, the 20 mm HIWIN guides are responsible for positioning accuracy.
The power of the machine is to W, and the work area of x mm accommodates all types of sheet material. The machine is equipped with a rotary device, and therefore in addition to cutting sheet metal, it also cuts round and rectangular pipes.
The cost of the machine depends on the emitter power and the rest of the equipment. Check the relevant price with Virmer managers: ; what’s app +. More information about this model can be found on our website.
This model is notable for the interchangeable tables. When the main table is used to cut material, the second table is used to collect the already cut metal pieces and to load a new metal sheet. This speeds up the process, making this machine ideal for high volume production.
The cost of the machine depends on the emitter power and the rest of the equipment. Check the relevant price with Virmer managers: ; what’s app +.
Fiber optic CNC laser machines for cutting metals with a power of more than 1 kW must be equipped with a protective cabin. Virmer provides emitters up to 15 kW.
Most often, CNC lasers are geared to a specific material: either metals or non-metals. However, there is a hybrid laser cutting machine based on a CO2 CNC laser.
Unlike conventional CO2 lasers, it is equipped with a special working head designed for cutting both non-metals and metals. In addition, it differs from other CO2 laser cutters by having two control systems, the Ruida RDCM and the Ruida Live Focus System. The first one is responsible for X-axis and Y-axis movements, and the second one for Z-axis positioning.
This machine can cut metals up to 2 mm thick, but only with an auxiliary gas (Oxygen), plywood up to 15 mm, and plastics up to 25 mm, as well as other non-metallic materials.
This model costs around €13,760, for the relevant price and details of the machine, visit our website.
Please note that the hybrid laser cutting machine is not suitable for metals thicker than 2 mm.
This machine is specially designed for cutting textiles and other coiled materials. It has a conveyor table and two cutting heads to speed up the production process. The conveyor table allows the material to be pulled through and fed into the cutting area to work uninterruptedly.
The machine costs around €11 375.
It is also possible to equip the machine with a camera, which helps to recognise contours and work with marks, which simplifies and speeds up the work process.
This model costs around €15 800
As you can see, choosing a machine is not an easy task and depends largely on your tasks and requirements. If you need an online demonstration of the equipment mentioned in this article, or further advice, please call us: + or us at .
The cost of a laser cutter depends on its work field size, laser source power, and other characteristics. The price for a CO2 laser cutting machine is 1,370 to 16,750 € , more details on our website. Laser metal cutting machines can be found on this page. The price of a metal laser machine is highly dependent on the emitter you choose, so please check with our managers.
A CO2 laser machine is a numerically controlled machine that can cut and engrave quickly and precisely non-metallic materials such as plywood, wood, MDF, various plastics, textiles, leather, fur, and many other materials using laser emission.
With a laser cutter with a carbon dioxide (CO2) emitter, you can cut any kind of wood. The recommended thickness for this type of cutting is up to 10 mm, as laser exposure to greater thicknesses causes fouling on the cut.
The difference between a CO2 and fiber laser is the wavelength of laser emission. With CO2 lasers it is 10.6 µm, while with fiber lasers it is 1.06 µm. The wavelength determines the possibility of treating particular materials.
CO2 lasers can work with wood, plywood, veneer, MDF, cardboard, paper, and other wood materials, plastics and polymers, such as: PET, acrylic, rubber, foam rubber, paronite, and others, with fabrics, leather, leatherette, and fur. In addition to cutting, CO2 laser machines can also engrave ceramics, stone, glass, and mirror.
Fiber optic machines work with ferrous metals, stainless steel, aluminium, titanium, copper, brass, and precious metals. Also, they are capable of working with polymers and plastics, some types of leather and faux leather.
The laser cutter can be used to cut almost any thickness of material. For non-metallic materials, CO2 laser cutters are intended, and for metals - fiber optic laser cutters.
Contact us to discuss your requirements of enclosed metal laser cutter supplier. Our experienced sales team can help you identify the options that best suit your needs.