Biodegradable bags are designed to break down faster than traditional plastic bags, but they still need to be disposed of properly to ensure that they do not end up in the environment.
Check the bag for specific disposal instructions
Some biodegradable bags may have specific disposal instructions that should be followed. Check the packaging or contact the china non woven bag manufacturer for guidance.
Composting
Biodegradable bags can be composted along with other organic material, such as food waste and yard trimmings. They will break down faster in a composting environment and can be used as fertilizer for plants.
Landfill disposal
Biodegradable bags can be disposed of in a landfill, but they may not break down as quickly as they would in a composting environment. It is important to dispose of biodegradable bags properly to prevent litter and environmental damage.
Recycling
Biodegradable bags are not always recyclable, so it is important to check with your local recycling program to see if they accept them. If they are not accepted, they should not be placed in the recycling bin.
Avoid littering
Biodegradable bags should never be littered, as they can still harm wildlife and the environment. Always dispose of biodegradable bags properly, even if they are designed to break down faster than traditional plastic bags.
It is important to dispose of biodegradable bags properly to prevent environmental damage and promote sustainability. By following the specific disposal instructions and choosing the right disposal method, biodegradable bags can be a more sustainable alternative to traditional plastic bags.
Determining the appropriate absorbency level for your needs is important for ensuring comfort and protection against leaks or accidents. China Adult diaper pants supplier are some steps you can take to determine the appropriate absorbency level for your needs:
Consider your level of incontinence
The level of incontinence can vary depending on the individual, ranging from light to heavy. Consider how frequently you experience leaks or accidents, and the volume of urine or fecal matter.
Choose the appropriate product
Adult nappies are available in various absorbency levels, ranging from light to heavy. Choose a product with an absorbency level that corresponds to your level of incontinence. Manufacturers typically provide guidance on the absorbency level of their products, such as “light,” “moderate,” or “heavy.”
Experiment with different products
It may take some trial and error to determine the appropriate absorbency level for your needs. Experiment with different products and absorbency levels to find the one that provides the most comfort and protection.
Consider your lifestyle
Consider your daily routine and level of activity when choosing an absorbency level. If you are frequently on the go or have limited access to a restroom, a higher absorbency level may be necessary.
Consult with a healthcare professional
If you are unsure about the appropriate absorbency level, consult with a healthcare professional for guidance. They can provide recommendations based on your individual needs and medical history.
It is important to choose an adult nappy with an appropriate absorbency level to ensure comfort and protection against leaks or accidents. Using a product with too low of an absorbency level can lead to leaks and discomfort, while using a product with too high of an absorbency level can be bulky and uncomfortable.
The first step is to prepare the raw materials, which may include nonwoven fabric, water, preservatives, and other additives. The nonwoven fabric is usually made from a blend of natural and synthetic fibers that provide strength and softness.
Mixing and blending
The raw materials are mixed and blended together in a large tank to create the wet wipe solution. This solution may include water, oils, fragrances, and other ingredients to create a specific product.
Cutting and folding
Once the wet wipe solution is prepared, it is fed into a machine that cuts and folds the nonwoven fabric into individual wipes. The wipes may be folded into a specific shape or pattern to make them easier to use.
Packaging
The wipes are then packaged in airtight containers, such as plastic bags or canisters, to keep them moist and prevent contamination. The packaging may be designed to dispense one wipe at a time or multiple wipes, depending on the product.
Quality control
Throughout the production process, the wet wipes are inspected and tested to ensure that they meet quality standards for moisture content, strength, and effectiveness.
The production of wet wipes involves a combination of blending, cutting, folding, and packaging to create a convenient and effective product for consumers. The specific production process may vary depending on the type of wet wipe being produced and the manufacturer’s preferred methods.
Laser cutting for welding is a technique for cutting and welding metal materials. It is an advanced form of CNC laser cutting that uses a laser beam to cut, heat and weld metal materials of different shapes and sizes. Laser cutting for welding can be used to create complex shapes and patterns in thin sheet metal, as well as to weld components together. Used in industries such as automotive, aerospace, medical and manufacturing, the technology can be used to create components for a variety of applications. The laser cutting process is highly precise, efficient and cost-effective.
How much technology does laser cutting have
There are several types of laser cutting technology, including CO2 laser cutting, fiber laser cutting and ultrashort pulse laser cutting. CO2 laser cutting is used to cut plastic, wood, paper and other non-metallic materials, while fiber laser cutting is used to cut metal materials such as steel, aluminum and copper. Ultrashort pulse laser cutting is used for more precise and complex cuts, as it can cut through very thin layers of metal without affecting the underlying material.
What is the difference between fiber laser cutting and welding laser cutting
The main difference between fiber laser cutting and welding laser cutting is the type of laser used. Fiber laser cutting uses a fiber laser beam focused onto a small area and can be used to cut metal at much higher speeds than traditional CO2 laser cutting.
The advantages of fiber laser cutting machines include:
Fast processing time
Reduced energy consumption and bills due to greater efficiency
Higher reliability and performance – no need to adjust or align optics, no need to replace lamps
Minimal maintenance
Capable of processing highly reflective materials (such as copper, brass)
Higher productivity – lower operating costs lead to higher return on investment
Disadvantages of fiber laser cutting machine:
Slower than other laser cutting technologies
Possibility of inaccurate cutting
More expensive than other laser cutting technologies
Higher maintenance costs
Welding laser cutting uses a high powered CO2 laser beam focused on a larger area, enabling it to weld components together as well as cut metal. The welding laser cutting process is more expensive than fiber laser cutting, but is more precise and can be used to create more complex shapes and patterns.
Advantages of welding laser cutting machine:
High precision and accuracy
Ability to cut and weld complex shapes without secondary operations
Reduced part warpage due to controlled heat input
Ability to join dissimilar metals
The laser welding process reduces the risk of contamination
Capable of precise cutting and welding of delicate materials
Disadvantages of welding laser cutting:
Expensive machines
High operating cost
High maintenance cost
Possibility of damage to parts due to high heat input
Yield is lower than other laser cutting technologies
Assuming that you are referring to becoming highly productive and efficient in your work, here are six ways to become a “block making machine”:
Set specific goals: Set clear and specific goals for what you want to achieve with your block making work. Break down your goals into smaller, achievable tasks and create a plan to work towards them.
Practice regularly: Practice your block making skills regularly to develop muscle memory and improve your technique. Consistency is key to becoming proficient at any skill.
Embrace new technology: Keep up with the latest technology and equipment in block making. Embrace new tools that can help you work more efficiently, accurately and productively.
Get feedback: Seek feedback from experienced block makers or supervisors. Accept constructive criticism to learn from your mistakes and improve your work.
Optimize your workspace: Organize your workspace to reduce clutter and optimize efficiency. Have all the necessary tools and materials within reach to minimize distractions and interruptions.
Stay motivated: Stay motivated and focused on your goals. Remind yourself why you started doing block making work in the first place and the benefits it brings you. Celebrate your achievements and progress along the way to maintain momentum.
Three Tips to Know Before Use block making machine
If you are planning to use a block making machine for the first time, here are three tips that can help you prepare:
Learn how to operate the machine: Before you start using the block making machine, familiarize yourself with the operating instructions and safety guidelines. Make sure you understand how the machine works, how to set it up, how to load materials, and how to operate it safely.
Prepare the materials: To make high-quality blocks, you need to have the right materials ready. china block making machine suppliers Check the manufacturer’s recommendations for the type of raw materials required, including the cement, aggregates, and water. Make sure you have the right mix ratio and quality of materials for the type of blocks you want to produce.
Have a plan for the finished blocks: Think about what you will do with the finished blocks after production. Will you sell them, use them for construction projects, or store them for future use? Have a plan in place for how you will handle the finished blocks, including how to transport them, store them, and protect them from damage.
By following these tips, you can ensure that you are fully prepared to use a block making machine safely and effectively.
Galvanized water pipes can corrode from the inside. Different utilizes ferrous metal piping to distribute gas throughout indoor and outdoor properties, wells and sewage systems. Hydrostatic inspection: hydrostatic testing is required in ferrous metal pipes, and eddy current flaw detection can also be performed in hydrostatic inspection.
In fillet welding, the same as the first layer, when the zinc layer melts, the molten zinc evaporates, evaporates and escapes the weld, which moves about 5~7mm in front of the first electrode, and then continues to move back to its Unique welding position. Most clogs can be cleaned in boiling water. Galvanized pipe is strong and durable, but will eventually corrode. After galvanizing, the impact resistance and wave resistance properties of the steel pipe have been improved. Black steel pipe can also be used as a standard pipe for other water delivery purposes, with potable water, in addition to being used for gas traces. The thin layer of zinc on the metal provides corrosion resistance through two mechanisms: First, when it is attached to the steel it acts as a sacrificial anode, so it should preferentially corrode in corrosive situations, thereby protecting the underlying steel.
Lead levels in some water samples taken from homes with galvanized metal pipes
Lead levels in some water samples taken from homes with galvanized metal pipes exceeded the EPA’s action stage, according to a study published in Environmental Engineering Science. The hot-dip galvanized steel pipe has relatively strong electroplating, the galvanized layer is very thick, and there is a blue ring mark on the top of the galvanized pipe. Also, galvanized steel pipe cannot be welded to other kinds of steel, especially copper, or to different types of steel pipe, as well as to black steel. After the specification of galvanized metal pipes exceeding DN50, especially DN100, DN125, DN150 and other large pipes, it is more difficult for senior personnel to develop, install and build even if they have to have professional knowledge in development, this clamp connection method can overcome These are cumbersome because only pipe clamps are used to connect butts, butt clamps, and tighten nuts. Repairing metal pipe with copper is much easier than with galvanized metal pipe, because galvanizing requires cutting threads on the actual length of pipe. When you notice brown stains in your sink or tub, you have iron in your water, which could be caused by galvanized pipes.
The life of galvanized metal pipe depends on elements as pipe fabrication quality
The life of galvanized metal pipe depends on elements as pipe fabrication quality, galvanizing thickness, water quality and water quality. Subsequently, layers of galvanized metal alloys and layers of pure zinc, a metal-based mixture, make it potentially corrosion-resistant. Second, due to the evaporation of zinc, a large amount of white smoke evaporates, which stimulates the human body and produces harmful effects. Subsequently, the galvanized layer needs to be welded. Let’s say you need to bring some metal pipe to a pipe bending company for an assignment, but you’re having trouble choosing between galvanized metal pipe and stainless steel pipe. The presence of galvanized pipe does not constitute an instant commodity, but it does mean that the water distribution pipes in your home will need to be extra checked and inspected during the home inspection process, especially if there is any evidence of past leaks. Galvanized car frames are an example; they corrode much faster in cold environments due to highway salt, although they outlast unprotected metal. However, as usually happens in the plumbing industry, over time, galvanized steel develops defects. Federal Metals is your preferred carbon steel pipe replacement. 9-7.6.1.2—Black steel pipe must be used to add, repair, or relocate existing galvanized pipe in wet, dry, or preaction systems.
There are several types of waterproof rubber seals, including:
O-rings: These are circular seals that are typically used in static or low-pressure applications.
Gaskets: These are flat seals that are used to fill gaps between two surfaces.
Lip seals: These are seals that have a flexible lip that is used to prevent the infiltration of fluids.
Diaphragms: These are flexible membranes that are used to separate two areas while still allowing for the transfer of fluids.
There are several types of waterproof rubber seals available in the market, each designed for specific applications.
Some common types of waterproof rubber seals include:
O-rings: These are circular seals that are typically used in static or low-pressure applications. They are simple and easy to install, and can be made from a variety of materials including nitrile, silicone, fluorocarbon, and EPDM.
Gaskets: These are flat seals that are used to fill gaps between two surfaces. They can be made from a variety of materials including rubber, silicone, neoprene, and EPDM. They are commonly used in applications such as plumbing, HVAC systems, and automotive engines.
Lip seals: These are seals that have a flexible lip that is used to prevent the infiltration of fluids. They are commonly used in rotary applications such as motors and pumps, and are available in a variety of materials including nitrile, silicone, and fluorocarbon.
Diaphragms: These are flexible membranes that are used to separate two areas while still allowing for the transfer of fluids. They are commonly used in applications such as pumps, valves, and regulators. They can be made from a variety of materials including EPDM, nitrile, and silicone.
Quad rings: These are four-lobed seals that provide improved sealing compared to O-rings. waterproof rubber seal They are commonly used in applications such as hydraulic and pneumatic systems, and can be made from a variety of materials including nitrile, silicone, and fluorocarbon.
Spring energized seals: These seals are designed with a spring that provides constant pressure against the sealing surface, ensuring a tight seal. They can be used in high-pressure and high-temperature applications, and are available in a variety of materials including PTFE, UHMWPE, and PEEK.
Overall, the selection of the appropriate waterproof rubber seal depends on the specific application, operating conditions, and environmental factors.
How are waterproof rubber seals installed and maintained?
The installation and maintenance of waterproof rubber seals can vary depending on the specific application and type of seal.
However, some general guidelines include:
Ensure that the seal is clean and free of debris before installation.
Follow manufacturer instructions for installation, including using the correct tools and torque values.
Inspect the seal regularly for signs of wear, damage, or degradation.
Replace the seal as necessary to maintain a tight and reliable seal.
Overall, the proper installation and maintenance of waterproof rubber seals is important to ensure their effectiveness and longevity in preventing the infiltration of water and other liquids.
The installation and maintenance of waterproof rubber seals can vary depending on the specific application and type of seal.
However, some general guidelines include:
Installation:
Ensure that the seal is clean and free of debris before installation.
Follow manufacturer instructions for installation, including using the correct tools and torque values.
Ensure that the seal is installed correctly, with no twists or kinks in the seal.
Check that the seal is securely in place and that there is no gap between the seal and the mating surfaces.
Maintenance:
Inspect the seal regularly for signs of wear, damage, or degradation.
Look for any leaks, discoloration, cracking, or distortion in the seal.
Replace the seal if any signs of wear or damage are detected.
Lubricate the seal with a compatible lubricant if necessary, but avoid using petroleum-based products that can damage the seal material.
Follow any specific maintenance recommendations provided by the seal manufacturer.
Overall, proper installation and maintenance of waterproof rubber seals are important to ensure their effectiveness and longevity in preventing the infiltration of water and other liquids. Regular inspection and replacement of seals can help prevent leaks and ensure the safety and efficiency of the equipment or system.
When selecting a bellows expansion joint, several factors should be considered, including:
Pressure and temperature requirements: Bellows expansion joints must be able to withstand the pressure and temperature of the fluid or gas being conveyed. The expansion joint must be selected based on the maximum and minimum pressure and temperature of the piping system.
Amount and direction of movement: The amount and direction of movement expected in the piping system due to thermal expansion, contraction, vibration, and seismic activity should be considered when selecting a bellows expansion joint. The expansion joint must be able to accommodate the expected movement in the system without over-extension or compression.
Corrosion resistance and compatibility: The bellows expansion joint must be made of materials that are compatible with the fluid or gas being conveyed and resistant to corrosion. The material selection depends on the application and the environment in which the piping system is located.
Material and design specifications: The material and design specifications of the bellows expansion joint, such as the number of convolutions, wall thickness, and diameter, should be selected based on the specific application and the pressure and temperature requirements.
Flange or connection type: The type of flange or connection used in the piping system should be considered when selecting a bellows expansion joint. The expansion joint must be compatible with the flange or connection type to ensure proper installation and functioning.
Vibration and shock resistance: Bellows expansion joints should be able to absorb and dampen vibration and shock in the piping system to prevent damage to other components. The expansion joint must be designed to withstand the expected vibration and shock in the system.
Overall, it is important to select a bellows expansion joint that meets the specific requirements of the piping system to ensure safe and reliable operation.
How are bellows expansion joints installed and maintained?
Bellows expansion joints are installed in piping systems between two fixed points, such as between two flanges or between a pipe and an anchor point. The installation process can vary depending on the specific application and requirements of the piping system.
However, there are some general guidelines that should be followed:
Align the expansion joint: The expansion joint should be aligned with the flange or connection it is being installed between. The alignment should be within manufacturer specifications to prevent over-extension or compression of the bellows.
Tighten the bolts: The bolts should be tightened gradually and evenly to ensure that the expansion joint is evenly compressed between the flanges or connections. China Bellows Expansion Joint supplier The bolts should be torqued to the manufacturer’s specifications.
Inspect the installation: After the installation, the expansion joint should be inspected for proper alignment, clearance, and movement. The bellows should not be over-extended or compressed, and there should be enough clearance to allow for movement during operation.
To maintain bellows expansion joints, regular inspection and maintenance is important. The frequency of inspection and maintenance can vary depending on the specific application and environment of the piping system.
Some general maintenance guidelines include:
Inspect the bellows for signs of wear and tear: Regularly inspect the bellows for cracks, bulges, leaks, or other signs of wear and tear. If any damage is found, the expansion joint should be repaired or replaced.
Check the bolts and connections: Check the bolts and connections for tightness and signs of corrosion. If any bolts or connections are loose or corroded, they should be tightened or replaced.
Lubricate moving parts: If the expansion joint has moving parts, such as hinges or tie rods, they should be lubricated regularly to prevent wear and tear.
Keep the environment clean: Keep the environment around the expansion joint clean and free of debris that could damage the bellows or other components.
By following these maintenance guidelines, bellows expansion joints can provide reliable and safe operation for many years.
Laser cutting machine is an important tool in the field of cutting, known as soon as the “knife”. Its principle is to irradiate the surface of the material through a high-density, high-energy laser beam, melting, vaporizing, ablating or reaching the ignition point, while blowing away the molten material with the help of high-speed airflow coaxial to the beam, thus achieving the cutting of the workpiece to form a cut.
Currently there are a variety of lasers on the market, divided into a variety of light sources, such as: green light, infrared, ultraviolet, etc., each light source has different advantages, respectively, applied to a variety of materials. Laser cutting can be divided into four categories: laser vapor cutting, laser melting cutting, laser oxygen cutting and laser scribing and controlled fracture.
So, what are the differences between various light sources green/infrared/ultraviolet laser applications of laser cutting machines? Lixing laser technical engineers to analyze the answer for you.
Laser cutting machine of various light sources green / infrared / ultraviolet laser applications, such as the difference between the analysis of.
Laser cutting machine commonly used to several light sources, optical fiber (red), violet (ultraviolet), green light, etc., different light sources applied to different materials, according to the characteristics of the material to be processed, the thickness of the material, processing quality requirements and the higher the requirements for the quality of the laser beam, thermal impact, the absorption of laser wavelengths are not the same, the choice of laser cutting machine will be different.
1, laser cutting machine light source of fiber (red light).
Fiber laser (Fiber Laser) refers to the use of rare earth element-doped glass fiber as a gain medium laser, fiber wavelength of 1064 nm, with high stability, and high precision, fast operation, low processing costs, high laser power, can cut a wide variety of materials, suitable for processing of large products; fiber applicable materials: stainless steel plate, aluminum substrate, ceramic substrate, copper substrate, the PCB, ceramic sheet, carbon steel, aluminum alloy, brass, copper, pickled plate, galvanized plate, silicon steel plate, electrolytic plate, titanium alloy, manganese alloy, etc., suitable for cutting various metal materials.
2, laser cutting machine light source of ultraviolet (violet):
UV laser 355nm wavelength, this wavelength belongs to the all-rounders, its spot is also very small, due to the special UM wavelength, in the traditional processing field has this all-rounders title, laser marking, laser cutting, laser welding can see his figure, fiber laser can not sit, it can do, C02 can not be processed it can also be, in the super wave cutting performance is good, for the metal products Micro-thin cutting can be done without burr, neat and smooth, fast speed, low energy consumption and other advantages. Purple applicable materials: cover film, FPC soft board, PCB soft and hard board, FPC auxiliary materials, ultra-thin metal, ceramics, polymer materials, resin, silicon wafer, PET / PI / PP film, adhesive film, copper foil, explosion-proof film, electromagnetic film, Sony adhesive and other types of flexible film.
3, laser cutting machine light source of green light:
Green light wavelength of 532nm, its spot is very small, the focal length is much shorter, belonging to the cold processing mode, has an irreplaceable role in precision cutting and processing, especially in the circuit board, glass, ceramics, jewelry, glasses and other industries can often see their silhouettes. Green light applicable materials: covering film, FPC soft board, PCB soft and hard board, PET/PI/PP and other flexible film, ultra-thin glass, ceramic substrate and other materials precision cutting.
Fiber laser cutting machine is mainly invested in the metal cutting industry, the current circuit board industry is basically put into production in the UV and green light cutting machine, since both are cutting applications for circuit boards. The main difference between UV laser cutting machine and green laser cutting machine is the cost of equipment, processing efficiency, processing results and processing purposes.
UV laser cutting machine in the field of PCB can take into account the FPC soft board cutting, IC chip cutting and some ultra-thin metal cutting, while high-power green laser cutting machine in the field of PCB can only do PCB hard board cutting, in the FPC soft board, IC chip, although also can do cutting, but the cutting effect is lower than the UV laser. Green laser cutting machine compared to UV laser cutting machine price is lower, the early processing efficiency is higher, but as the power of UV laser cutting machine continues to rise, this advantage is gradually being leveled. In the processing effect of the thermal impact is less, the effect is more ideal.
The above is the laser cutting machine of various light sources green / infrared / ultraviolet and other laser application difference analysis, force star laser main products are laser cutting machine, full CNC hydraulic bending machine, laser welding machine, laser marking machine and laser application automation equipment, etc., applied to sheet metal processing, chassis cabinet, lighting, cell phones, 3C, kitchenware, sanitary ware, auto parts mechanical processing and hardware and other industries. Click on the right side to book free samples, online consultation, free telephone consultation, follow Lixing laser WeChat service number to know more information about laser cutting machine.
Laser cutting machine is a combination of high precision components, in order to ensure its normal use, the equipment must be routine maintenance and maintenance, regular professional operation can make the equipment effectively reduce the impact of the environment on the components, maintenance in place to make them efficient, trouble-free long-term stable operation.
Laser cutting machine is a process revolution in sheet metal processing, is the "processing center" in sheet metal processing; laser cutting machine flexibility degree is high, cutting speed, high production efficiency, short product production cycle, for customers to win a wide range of markets. Laser cutting technology has been widely used in the automotive, machinery, electricity, hardware and electrical appliances and other fields.
So, what are the five key parts of the metal laser cutting machine maintenance and maintenance considerations? Lixing laser technology engineers to answer your analysis.
Laser cutting machine five key parts of the maintenance and maintenance precautions.
Laser cutting machine equipment is the main components of the circuit system, transmission system, cooling system, optical system, dust removal system.
1, the optical system maintenance and maintenance.
Laser cutting machine accessories of the optical lens (protective mirror, focusing mirror, etc.) surface, do not touch directly with your hands, which can easily cause scratches on the mirror surface. If there is oil or dust on the mirror surface, will seriously affect the use of the lens, the lens should be cleaned in a timely manner. Different methods of cleaning different lenses; laser cutting machine accessories of the reflector cleaning: blow off the surface of the lens with a gun; use alcohol or lens paper to clean the surface of the lens.
Metal laser cutting machine accessories of focus mirror cleaning: first blow off the dust on the mirror with a gun; then use a clean cotton swab to remove dirt; use a new cotton swab dipped in high-purity alcohol or acetone from the center of the lens along the circumference of the movement, scrubbing the lens, after each week of scrubbing, change another clean swab, repeat the above operation until the lens is clean.
2, the transmission system maintenance and maintenance.
Laser cutting machine linear motor guide in use for a period of time, will produce smoke and dust on the guide has a corrosive effect, so regularly remove the organ cover maintenance linear motor guide. The cycle is once every six months.
Maintenance method: the laser cutting machine off the power, open the organ cover with a clean soft cloth to wipe the guide clean, and then wipe a thin layer of white guide lubricant on the guide, after the oil in the let the slider in the guide pull back and forth a little to ensure that the lubricant into the internal slider. Remember not to directly touch the rail with your hands, otherwise it will lead to rusting of the rail and affect the operation.
3, the circuit system maintenance and maintenance.
Laser cutting machine on both sides and tail chassis of the electrical part to keep clean, power off once in a while to check, available air compressor vacuum, dust accumulation too much when the weather is dry will generate static electricity, interfering with the machine signal transmission. Wet weather will occur circuit short circuit problems, causing the machine can not operate normally, the machine needs to run at the specified ambient temperature before running production.
When carrying out maintenance work the machine must be turned off by means of the main switch, which is turned off and the key removed. Safety regulations must be strictly observed in order to avoid accidents. Since the whole equipment is made of high precision components, extra care must be taken in the daily maintenance process, in strict accordance with the operating procedures of each part, and the maintenance should be carried out by a dedicated person, so as not to damage the components.
The environment of the working workshop should be kept dry and well ventilated, with the ambient temperature at 25℃±2℃, paying attention to the prevention of equipment condensation in summer and the prevention of freezing of laser equipment in winter. The equipment should be far away from the electrical equipment sensitive to electromagnetic interference, to prevent the equipment from long-term electromagnetic interference. Stay away from large power and strong vibration equipment sudden large power interference, large power interference can sometimes cause machine failure, although uncommon, but should try to avoid.
4, the maintenance and maintenance of dust removal system.
Metal laser cutting machine exhaust system fan after working for a period of time, the fan and exhaust pipe will accumulate a large amount of dust, dust will affect the exhaust efficiency of the fan, resulting in a large amount of smoke and dust can not be discharged. Every month or so for cleaning, the exhaust pipe and fan connection hose loosened, remove the exhaust pipe, clean out the dust in the exhaust pipe and fan.
5, the maintenance and repair of the cooling system.
The main role of the laser cutting machine chiller is to cool the laser, chiller circulating water requirements must use distilled water, water quality problems or environmental dust into the circulating water, the deposition of these impurities will lead to blockage of the water system and cutting machine components, thus seriously affecting the cutting effect or even burned optical components, so good and regular maintenance is the key to ensure that the machine works properly.
Maintenance method: use cleaning agent or high quality soap to remove the dirt on the surface of the chiller, please do not use benzene, acid, abrasive powder, steel brush, hot water, etc. to clean; test whether the condenser is blocked by dirt, please use compressed air or brush to clear the condenser dust; replace the circulating water (distilled water), and clean the water tank and metal filter.
