Laser Cutting Machines: A Comprehensive Guide

Laser cutting machines have become increasingly accessible, even to those who do not own large corporations. The market has seen a surge of affordable options that allow individuals and small businesses to acquire these advanced cutting solutions without causing a significant dent in their finances. However, it is crucial to exercise caution during the purchasing process, as the quality of the machine ultimately determines its performance.

When selecting an automatic cutting tool kit, consider your specific needs and budget. Opt for a machine that is precise, reliable, and equipped with high-quality components. Additionally, ensure that you receive proper training and support to operate the machine effectively. With the right smart cutting system, you can achieve your production goals without overspending.

If you are in search of a reputable manufacturer and brand for your next laser cutting machine, Hymson Laser is a reliable choice that offers quality machines at affordable prices.

What Is A Laser Cutting Machine?

A laser cutting machine is an automatic cutter that uses a CNC controller kit in combination with CAD/CAM software to cut through various materials. These materials can range from metals and metalloids to nonmetals, and the machine can use either a CO2 or FIBER laser beam. The machine can cut custom shapes, contours, and holes out of sheets and profiles to create personalized parts, signs, tags, decorations, arts, crafts, gifts, jewelries, lamps, and puzzles for both hobby uses and industrial commercial uses.

The laser cutter is an automated cutting tool kit that uses a laser beam in conjunction with a smart digital cutting system to cut patterns on various materials. These materials can include metals (steel, copper, brass, aluminum, titanium, gold, silver, alloy, iron), acrylic, rubber, wood, plywood, MDF, plastic, leather, paper, foam, textile, and fabric. A laser kit consists of a machine base and frame, CNC controller, generator, power supply, tube, head, lens, mirror, water chiller, stepper motor or servo motor, gas cylinder, air compressor, gas storage tank, air cooling filer, dust extractor, dryer, and software.

A laser cutting system is an organized collection of parts integrated to accomplish precision cuts for industrial manufacturing, commercial use, education, training, small business, home business, small shop, and home shop. Compared to manual and mechanical cutting tools, it is a more flexible cutting system. It can cut a variety of materials in varying thicknesses, and there is no limit to the shapes you can achieve. It is fast to program, and any changes can be applied at any stage of manufacturing at almost no additional cost and time. It features high precision, excellent trimming quality, and no deformation of parts, making it the best solution for modularization and automation in the manufacturing cycle.

How Does A Laser Beam Cutting Machine Work?

A laser beam is a type of light resulting from the transition of atoms (molecules or ions). However, it differs from ordinary light in that it relies on spontaneous radiation only for a very short period of time. The subsequent process is entirely determined by the excitation radiation, resulting in a very pure color, almost no divergence direction, extremely high luminous intensity, and high coherence.

The laser cutting process is automated and uses high-power and high-density energy from a focused light beam to melt and vaporize materials such as metal, wood, acrylic, plastic, fabric, leather, foam, resulting in a precision kerf.

With the CNC controller, the generator outputs a high-frequency to create a beam with a certain frequency and pulse width. The beam is transmitted and reflected through the optical path and focused by the focusing lens group. A tiny, high-energy-density light spot is formed on the surface of the part, with the focal point located near the surface to be cut. The material melts or vaporizes at an instant high temperature. Each pulse creates a small hole in the substrate. With the computer numerical controller, the head and the substrate perform continuous relative movement and dotting according to the designed file, thereby cutting the substrate into the desired shape. The technological parameters (cutting speed, power, gas pressure) and movement trajectory during slitting are controlled by the CNC system, and the slag at the slit is blown off by the auxiliary gas with a certain pressure. The beam emitted by the generator is focused by the optical path system into a beam of high-power density. The beam is irradiated onto the surface of the part to bring the part to a melting point or boiling point, while the high-pressure gas coaxial with the beam blows away the molten or vaporized material. As the beam moves relative to the part, the material is slit finally, thereby achieving the purpose of cutting. Different powers can cut different projects with different thickness. Generally speaking, higher power is used for thicker parts. You should make the appropriate choice according to your requirements.

What Are Laser Cutting Systems Used For?

Laser cutting systems are the most common automatic cutting tools used in a wide range of applications including personalization (customization), digital printing, medical technology, fab labs, education, architectural models, smart phones and laptops, computers & electronics, toys, watches, arts & crafts, awards, trophies, rubber stamps, packaging design, die cut, mold making, signs making, displays making, giveaways, electronics industry, automotive industry, signage, mechanical engineering, ball bearing, jewelry making, fashion & apparel fabrics, stencils, paper cards, car floor mats & liners, textile and garment industry, bar code serial numbers, watches, machining industry, data plates industry, packaging industry.

What Material Is Best To Laser Cut?

Fiber lasers are capable of cutting a variety of metal materials (sheet metals, metal tube, metal profile, 3D curved metals and irregular metals) of carbon steel, stainless steel, mild steel, tool steel, spring steel, galvanized steel, aluminum, copper, gold, silver, alloy, titanium, iron, brass, manganese, chromium, nickel, cobalt, lead, and more metals.

CO2 lasers are capable of cutting a variety of thin metal and non-metal materials of wood, MDF, plywood, chipboard, acrylic, plastic, PMMA, leather, fabric, cardboard, paper, rubber, depron foam, woodleather, wood paper, EPM, gator foam, polyester (PES), polyethylene (PE), polyurethane (PUR), neoprene, textile, bamboo, ivory, carbon fibers, beryllium oxide, polyvinyl chloride (PVC), polyvinyl butyrale (PVB), polytetrafluoroethylene (PTFE / Teflon), phenolic or epoxy resins, and any materials with halogens (fluorine, astatine, iodine, chlorine, bromine).

How Much Does A Laser Cutter Cost?

If you’re looking to start your business with a used or new cutting tool to make money, you may wonder how much it costs and what is the average cost in your area. The best budget laser cutter costs from about $2,600 to $300,000, excluding the price of shipping, tax rates, customs clearance, service, and technical support. Costs depend on the brand and type, and whether you want any extra features, including personalized design, custom table size, generator and power, rotary attachment, controller, software, parts, accessories, upgrades, setup, debugging, and other special features. Here are the average costs list in 2023:

A fiber laser cutting machine costs from $8,800.00 to 260,000.00. A CO2 laser cutter costs from $2,600.00 to 68,800. A mixed hybrid cutting system costs from $6,800 to $32,500.

From entry-level to high-end or eco-friendly types, the costs vary depending on the types & powers you choose.

The cheap entry-level cutting kit is priced anywhere from $2,600 to $8,800 with 80W CO2 glass tube for beginners, enthusiast, hobby, home use, small business, while some high-end cutting machines are as expensive as $279,000 with 12000W IPG power supply for industrial metal fabrication.

The best value cutting tool is priced from $3,000 to $10,800 with CO2 laser powers of 80W, 100W, 130W, 150W, 180W for plywood, MDF, bamboo, fabric, leather, acrylic, fabric, and foam.

The affordable sheet metal cutter cost starts from $6,800 with 300W power, while some precision metal cutters are priced from $19,800 to $568,000 with powers of 1000W, 1500W, 2000W, 3000W, 4000W, 6000W, 8000W, 10000W, 12000W, 15000W, 20000W, 30000W, 40000W.

The professional tube cutting system cost starts around $50,000 with CNC controller for any types of metal tubing.

All-in-one sheet metal and tube cutters for sale from $42,500 to $116,000 for dual-purpose commercial use with automation.

An automatic 5 axis cutting robot has a price range from $49,000 to $83,500 for flexible 3D dynamic metal cut of multi-angle and multi-dimensional in industrial manufacturing.

Technical Parameters

Brand: Hymson Laser

Types: Fiber Laser, CO2 Laser

Laser Wavelength: 10.6 μm, 1064 nm

Powers: 80W, 100W, 130W, 150W, 180W, 300W, 1000W, 1500W, 2000W, 3000W, 4000W, 6000W, 8000W, 10000W, 12000W, 15000W, 20000W, 30000W, 40000W

Table Sizes: 2′ x 3′, 2′ x 4′, 4′ x 4′, 4′ x 8′, 5′ x 10′, 6′ x 12′

Axis: 3 Axis, 4th Axis (Rotary Axis), 4 Axis, 5 Axis

Cutting Materials: Metals (Stainless Steel, Carbon Steel, Tool Steel, Galvanized Steel, Spring Steel, Copper, Brass, Aluminum, Gold, Silver, Iron, Titanium, Chromium, Alloy, Manganese, Cobalt, Nickel, Lead), Wood, MDF, Plywood, Chipboard, Acrylic, Plastic, Fabric, Leather, Jeans, Paper, Cardborad, ABS, PE, EPM, PES, PVB, PUR, PVC, PTFE, PMMA.

Cutting Software: LaserCut, CypCut, RDWorks, LaserWeb, EZCAD, CypOne, Laser GRBL, EzGraver, SolveSpace, Inkscape, LightBurn, Corel Draw, Adobe Illustrator, Archicad, AutoCAD.

Applications: Industrial Manufacturing, School Education, Small Businesses, Home Business, Small Shop, Home Shop, Hobbyists.

Price Range: $2,600.00 – $300,000.00

Diverse Varieties of Laser Cutting Machines

Laser cutting machines are categorized into a plethora of types based on the materials they are designed to cut, their sources, and their styles. Metal cutters, wood cutters, fabric cutters, leather cutters, paper cutters, acrylic cutters, plastic cutters, and foam cutters are some of the classifications based on the materials they can process.

The sources of these machines can be either fiber or CO2 lasers. Their styles can range from handheld, portable, mini, small, tabletop, benchtop, to desktop.

The dimensions of the cutting tables are also diverse, with the most common ones being 2×3, 2×4, 4×4, 4×8, 5×10, and 6×12. It is crucial to measure your workshop space before purchasing to ensure the cutting table will fit appropriately.

The cutting systems are further divided into 3 axis types, 4th axis (rotary axis) types, 4 axis types, 5 axis types, flatbed cutters, tube cutters, home types, hobby types, die cutters, profile cutters, and industrial cutting systems based on their applications.

Crafting Your Own Laser Cutter Kit

For DIY enthusiasts, understanding the structural composition of a laser cutter kit is paramount before embarking on building one. A complete kit comprises core components such as the generator, cutting head, beam transmission components, working table, CNC controller, and cooling system.

Laser Generator

The generator, which produces the beam, is a crucial component. Fiber generators are ideal for all types of sheet metals and metal tubes, while CO2 generators are economical for materials like wood, plastic, acrylic, fabric, leather, foam, and thin metals.

Cutting Head

The cutting head is composed of a nozzle, a focusing lens, and a focusing tracking system.

Cutting Nozzle

There are three common types of nozzles available: parallel, converging, and conical.

Focusing Lens

The focusing lens concentrates the energy of the beam to form a high-energy density spot. Medium and long focusing lenses are suitable for thick plates and have low requirements on the spacing stability of the tracking system. Conversely, short focusing lenses are only suitable for thin sheets, requiring high spacing stability of the tracking system and significantly reducing the output power requirements.

Focus Tracking System

The focus tracking system comprises an auto-focus cutting head and a tracking sensor system. The cutting head consists of mechanical adjustment parts, an air blowing system, a light guide system, and a water-cooling system. The sensor is made up of an amplification control part and a sensing element. There are two types of tracking systems: the inductive sensor tracking system (also known as the contact tracking system) and the capacitive sensor tracking system (also known as the non-contact tracking system).

Beam Delivery Components

The primary component of the beam delivery assembly is the refractive mirror, which directs the beam in the desired direction. The reflector is usually protected by a cover, and a clean positive pressure protective gas is introduced to shield the lens from contamination.

Cutting Table

The cutting table, composed of the bed frame and the driving part, facilitates the mechanical movement of the X, Y, Z axis.

CNC Controller

A CNC controller is used to control the movement of the X, Y, and Z axes and set cuttingparameters such as power and speed.

Cooling System

The cooling system, typically a water chiller, is used to cool the machine. For instance, with an electro-optical conversion rate of 33%, about 67% of the electric energy is converted into heat energy. To ensure the normal operation of the equipment, the chiller needs to cool the machine by reducing its temperature.

Assembly

After procuring the necessary parts and accessories, the next step is to assemble the kit and fine-tune the software and hardware. The operation and cutting quality of the machine are directly related to the material, generator, gas, air pressure, and the parameters you set. It is crucial to set the parameters carefully according to your process requirements. Improper parameter setting and operation may result in reduced effect, damage to the cutting head or other machine parts, or even personal injury.

A Beginner’s Guide to Using a Laser Cutter

Laser cutting is a non-contact subtractive manufacturing technology used for cutting materials in small business and industrial manufacturing applications. The working principle involves guiding the output of a high-power focused pro laser beam to melt the material, resulting in an edge with a high-quality surface finish. The industrial-grade maintenance-free laser beam cutting system offers significant technical advantages, ultra-low power consumption, reduced operating costs, and repeatable and accurate positioning performance, setting a new benchmark for cutting complex patterns and establishing a new standard for process quality inspection.

Before starting, it is essential to ensure that all connections of the machine (including power supply, PC, and exhaust system) are correct and inserted properly. A visual check of the machine’s condition is also necessary. Ensure that all mechanisms move freely, and check that there is no material under the processing table. The work area and optical components should be clean, and if necessary, cleaned. For more information on this issue, please refer to the “General Maintenance” section of the operation manual. Check the exhaust system and start the cooling system if necessary. Check whether the filter and activated carbon of the exhaust system are installed according to the instructions. After checking, close the protective cover.

Next, press the main switch to turn on the main power of the machine. Turn the key switch on the control panel. This is machine-specific and not relevant to all lasers. If all the covers fixed with safety circuit breakers are closed, the system will start to quote after startup. After turning on the machine, the table will move all the way down while the pro cutting head moves to the zero position (located in the upper left corner). When there is a sound and the LED light flashes slowly and steadily, the reference process has been completed correctly, and the machine is ready to start operation.

After all preparations are finished, follow these easy-to-follow operation steps:

Step 1. Place the raw material to be cut steadily on the table;

Step 2. Adjust the system cutting parameters of the equipment correspondingly based on the material and thickness of the raw material to be cut;

Step 3. Choose suitable nozzles and lenses, and inspect them to ensure their appearance and cleanliness are intact;

Step 4. Repeatedly debug the equipment and adjust the focus point of the cutting head to a suitable position;

Step 5. Check and adjust the nozzle of the equipment and align it to the center;

Step 6. Adjust and calibrate the sensor of the cutting head;

Step 7. Select a suitable gas based on your working needs, and check whether the jet is in good condition;

Step 8. Try cutting the raw material to be cut, and observe whether the section is smooth and the cutting accuracy is accurate. If there is a deviation, adjust the equipment parameters accordingly untilthe proofing meets the requirements;

Step 9. Draw and typeset the graphics to be cut, and import them into the cutting system;

Step 10. Adjust the position of the cutting head. You can start working after all preparations are done;

Step 11. During the operation, the staff needs to be present at the scene to observe the working condition of the equipment, and if there is an emergency, they need to quickly press the brake button;

Step 12. When the equipment is stopped, always clean the guide rails, wipe the rack of the equipment, and often apply lubricating oil on the guide rails to ensure that there is no debris;

Step 13. The motor ring should be cleaned frequently to ensure the normal operation of the machine and accurate cutting, so as to ensure the quality;

Step 14. The staff must use a vacuum cleaner to suck away the dust and debris from the machine every week to ensure the cleanliness of the equipment;

Step 15. To ensure the service life of the machine, it is necessary to check the straightness and verticality of its track every six months, and if any abnormality is found, it must be maintained and debugged in time.

Selecting an Affordable Laser Cutter

When you plan to purchase a laser cutter machine, there are several factors to consider. Here is a detailed purchasing plan for you.

Planning Your Laser-cut

Firstly, consider factors such as the scale of your business, the materials you need to cut, and their thickness. Then, confirm the power supply and the size of the workbench according to your needs. The laser powers in the market range from 80 watts to 40,000 watts, and the table size can be customized according to your requirements.

Researching Manufacturers & Makers

Once you confirm your needs, you can research it. Learn from your peers, understand the machine functions and basic parameters. Select a few powerful manufacturers with favorable prices for preliminary exchanges and proofing, then conduct on-site investigations in the later stage, and conduct more detailed discussions on prices, online and offline training, and after-sales services.

Generator Selection

If you need to cut sheet metal and metal tubes, a fiber laser generator is the best choice, which includes some well-renowned brands such as IPG, JPT, Raycus, and MAX. If you want to engrave and cut wood, acrylic, leather, fabric, a CO2 glass laser tube is the right solution, which includes some world famous brands such as RECI and YONGLI.

Power Requirements

When researching the cutting ability, you need to consider the watts of the power supply. If you cut thin sheets, you can choose a lower power supply to meet your cut. The material with higher thickness need to consider higher power supply, which is beneficial for enterprises to control costs.

Choosing Parts & Accessories

The core parts should be paid special attention when purchasing, especially generator, cutting head, servo motor, guide rail, water chiller, and some accessories. These parts will affect the cutting speed and accuracy of the machine.

Choosing Software & Controller

In order to make the machine easy to use, an user-friendly controller and powerful CAD/CAM software based on Windows and macOS are indispensable. Some of them are free with simple functions, while paid software is more professional for your business. All depends on your business needs.

Quality & Stability Assurance

Today’s products are being updated faster and faster. Due to the short product development cycle, there are more product diversity, sample trial production, and mass production. How to complete customer orders with quality and quantity, enhance corporate competition, and maintain corporate reputation is also every time. Therefore, the purchase of processing equipment with stable functions is the condition and foundation. Try to choose a brand with a high market share, a sound after-sales service system, a large number of after-sales service outlets, and a long-term shopping mall inspection. Avoid purchasing low-quality products with low prices and no after-sales service, as this can have a significant negative impact on the processing of enterprises.

After-Sales Service & Support

Each manufacturer’s after-sales service varies, and the warranty period also differs. For hardware and software, there must be a professional training system to help customers get started as soon as possible. No matter how well a machine is made, it will encounter various problems in the process of use. If customers encounter problems that cannot be solved, it is particularly important whether the maker can provide solutions in a timely manner. This is also an important thing to consider when purchasing.

Purchasing Process Flow

The purchasing process typically involves consultation, quotation, process evaluation, placing an order, production, quality control, shipping, custom clearance, support, and service.

Evaluating the Worth of a Laser Cutter

A CO2 laser cutter, suitable for customers with a modest investment budget, ranges in price from $3,000 to $16,000. It is characterized by a low investment cost, minimal consumption of wearing parts, and a short payback period. However, when considering the price, the value it can bring is more crucial. In other words, it depends on whether the performance and advantages justify the investment.

A laser cutter, with its ease of operation and automation, is used to create DIY crafts, gifts, and artworks. It can assist you in starting a custom business on Amazon or selling personalized laser-cut gifts on Etsy to generate income, making it a worthwhile purchase.

However, is an expensive fiber laser cutting machine a profitable investment? Many companies or individuals may hesitate when considering such a purchase. A fiber laser machine is priced between $20,000 and $160,000. When can the cost be recovered, and how much profit can it generate in a year?

If the unit price is the standard market price, and the business volume is sufficient, the cost can be recovered quickly. Some companies only cut for their own parts, which make the processing volume relatively small, so the cost recovery will be slow. Let’s take external processing as an example. At present, the average profit of external laser processing is between 50% and 60%. If the average cost of entrusted processing is $50,000 a month, then the annual cost is $600,000. If we own a fiber laser, the cost is about $25,000 ($50,000 * 0.5) excluding the cost of one month and the same processing volume. According to this calculation, we can save $300,000 in cutting costs in one year. In this way, a machine with 1000W power can recover the cost in about a year.

It has a service life. It is impossible to use it all the time without cost. A fiber laser generator can be used for 100,000 hours. You can calculate the cost after use and before use. Remove the cost and calculate the profit change after using the machine.

Pros & Cons

Laser cutting is one of the thermal cutting methods, which can do vaporization, fusion and oxygen cutting, dicing and controlled fracture. It has replaced the traditional mechanical cutters with invisible beams. It has advantages of high speed, high precision, high quality, low machining cost, automatic typesetting, smooth cut edges for any shapes and designs. It is an upgrade to traditional cutting tools. In addition to the advantages, it also has its own shortcomings and limitations.

Pros • The mechanical part of the cutting head has no contact with the part, and it will not scratch the surface of the part during operation.

• The cutting speed is fast, the slit is smooth and flat, generally no subsequent cutting is required.

• The heat affected zone is small, the sheet deformation is small, which is used for precision fine cutting.

• Low cost of use without consumables, which is beneficial for makers to reduce manufacturing costs.

• The slit has no mechanical stress, no shear burr. It is high precision, good repeatability, does not damage the surface of the material with smooth cut edge.

• Using a computerized numerical control (CNC) unit that accepts cutting data from a computer-aided design (CAD) workstation.

• Working with CNC programming, which can cut any plan, and the whole large format part without molding.

Cons • Since it is thermal cutting, in the process of multi-layer cutting, the edge part is easy to stick, which has a great impact on the quality.

• Due to the short wavelength of the laser, it is easy to cause damage to human eyes. Users can choose to wear special protective glasses to reduce injuries.

• Due to the thin incision of the fiber laser, the gas consumption is large (especially when working with nitrogen).

• Since the CO2 laser tube is made of glass, improper handling will cause it to break.

Care & Maintenance

A laser cutter should be regularly maintained to ensure the cutting speed, accuracy, and quality, and extend its service life. You should form the 10 good work habits listed below.

• Before starting the machine every day, carefully check the pressure of the working gas and cutting gas. If the gas pressure is not enough, it should be replaced in time.

• Check whether the zero points of X axis, Y axis, and Z-axis, laser ready state and other buttons are damaged.

• Check whether the zero point, limit switch, and travel block mounting screws of the X axis, Y axis, and Z axis are loose, and whether the limit switches of each axis are sensitive.

• Check whether the circulating water level in the chiller is sufficient. If it is insufficient, it must be replenished in time.

• Check whether there is leakage of the circulating water in the external optical path, and the leakage must be dealt with in time, otherwise the life of the optical lens will be affected.

• After working every day, check the lens of the focusing lens for damage.

• Check whether the telescopic skin cavity of the outer optical path is burnt or damaged.

• The waste should be cleaned up in time, the workplace should be cleaned up, and the workplace should be kept clean and tidy. At the same time, do a good job of cleaning the equipment to ensure that all parts of the equipment are clean and free of stains, and no debris can be placed in each part of the equipment.

• After the daily work is completed, open the drain valve of the air storage tank at the bottom of the air compressor to drain water, and close the drain valve after the waste water is discharged.

• After the daily work is completed, shut down according to the shutdown steps, and then turn off the main power of the entire machine.

Cautions & Warnings

A beginner or professional should operate the laser cutting machine under the guidance of the instructions and the safety tips in the user manual to avoid accidents. You must follow the listed 18 safety rules.

• You should clean the dirt on the bed frame and guide rails every day.

• The user must strictly abide by the safety operation rules.

• The operator must consult all the manuals provided with the machine, be familiar with the structure and performance of the equipment, and master the relevant knowledge of the operating system.

• Wear labor protection equipment as required, and wear protective glasses that meet the regulations near the beam.

• Do not process the material until it is determined whether the material can be irradiated or heated to avoid the potential danger of fumes and vapors.

• When the machine is started, the operator shall not leave the post or be managed by the trustee without authorization.

• Keep the fire extinguisher within easy reach. Turn off the laser or shutter when not working. Do not place paper, cloth or other flammable materials near an unprotected beam.

• If an abnormality is found during the processing, the machine should be stopped immediately, and the fault should be eliminated or reported to the supervisor in time.

• Keep the generator, bed and surrounding sites clean, orderly and free of oil. Workpieces, plates and scraps are stacked according to regulations.

• When using gas cylinders, avoid squeezing wires, water pipes and air pipes to avoid leakage of electricity, water and air. The use and transportation of gas cylinders shall comply with gas cylinder regulations. Do not expose gas cylinders to direct sunlight or near heatsources. When opening the bottle valve, the operator must stand on the side of the bottle mouth.

• Before turning on the power of the chiller, check the water level of the chiller. It is strictly forbidden to turn on the chiller when there is no water or the water level is too low to avoid damage to the water cooling equipment. It is strictly forbidden to squeeze or step on the water inlet and outlet pipes of the chiller to keep the water passages unblocked.

• The beam will cause burns when it irradiates the human skin. Staring into a beam for extended periods of time can cause serious damage to the retina of the eye. Operators must wear goggles.

• The equipment will generate a lot of smoke and dust when cutting certain plates, so the outlet pipe of the fan should be led to the outside, or an air purification device should be installed. In addition, operators should wear dust masks to prevent the occurrence of occupational diseases.

• When the temperature is below 0 °C for a long time, the cooling water in the water cooler, laser and water pipeline should be drained to prevent the cooling water from freezing when the temperature is too low, causing damage to equipment and pipelines.

• Check the protective lens inside the cutting head once a day. When the collimating mirror or focusing mirror needs to be disassembled, record the disassembly process. Pay special attention to the installation direction of the lens and do not install it wrong.

• Turn off the air source and power supply when off work, and the residual air belt in the machine pipeline should be emptied at the same time. If you leave the machine for a long time, please turn off the power to prevent unprofessional operation.

• Pay attention to observe whether there is lubricating oil on the surface of the horizontal and longitudinal guide rails and the frame of the machine, and maintain good lubrication.

• If there is an automatic height adjustment device, check whether it is sensitive and whether to replace the probe.

Buyer’s Guide

When purchasing a laser cutter, it’s crucial to focus on technical features to ensure that the machine meets your needs. Key technical features to consider include power, cutting area, resolution, and software compatibility. Laser power determines the type and thickness of materials the cutter can handle, while the cutting area refers to the size of the working area. Resolution determines the level of detail and precision the cutter can achieve. It’s also important to ensure that the cutter is compatible with the software you plan to use. Price is another important factor to consider when buying a laser cutting machine. The cost can vary depending on its technical specifications and the brand. It’s important to balance cost with the machine’s capabilities and reliability to ensure that you are getting good value for your money. By considering these technical features, you can make an informed decision when choosing a laser cutter kit & cutting system that will meet your specific needs and requirements.

Why Hymson Laser?

Hymson Laser is a leading manufacturer of high-quality laser cutting machines. With years of experience in the industry, Hymson Laser is committed to delivering cutting-edge technology and innovative solutions to its customers.

Whether you need to cut metal, plastic, or other materials, the brand has a machine that can handle the job. In addition to its top-of-the-line machines, the enterprise offers exceptional customer support and service. The company’s team of experts is available to answer any questions and provide assistance to ensure that your machine is running at its best.