Colour | One Color |
Manufacturer | LUJIAYA |
Weight | 3.5 kg |
Colour | Black |
Manufacturer | Draper |
Weight | 97 kg |
Colour | Blue |
Manufacturer | Charnwood |
Weight | 82 kg |
Colour | White |
Manufacturer | kwb |
Weight | 330 g |
Colour | - |
Manufacturer | YWBL-WH |
Weight | - |
Colour | - |
Manufacturer | Axminster Woodturning |
Weight | 4.49 kg |
Colour | - |
Manufacturer | KATSU Tools |
Weight | - |
Colour | Blue |
Manufacturer | Uadme |
Weight | 420 g |
Colour | - |
Manufacturer | Jectse |
Weight | - |
Colour | - |
Manufacturer | Fdit |
Weight | - |
Overview of Stationary Lathes
Stationary lathes are used to shape, cut, drill, and sand wood or other materials. These lathes may be powered manually or by electric motors. They come in various sizes, including benchtop and floor models, to accommodate the needs of different users. Stationary lathes offer many benefits, including the ability to create intricate designs on small or large objects, and producing smooth finishes.
Types of Stationary Lathes
There are two types of stationary lathes: wood lathes and metal lathes. Wood lathes are designed to work with wood materials, while metal lathes can work with various metals. The two types of lathes can be differentiated by the speed at which they operate. Wood lathes typically run at slower speeds for shaping and sanding, while metal lathes operate at higher speeds for accurate cutting and drilling. Stationary lathes also come in various configurations and sizes to meet different needs. Some models feature a horizontal bed, while others have a vertical bed. In addition, lathes may feature a swiveling tool post or include various tool rests for added flexibility in shaping and cutting the material.
A stationary lathe is a machine tool used primarily for shaping and cutting wood, metal or other materials. It is called a "stationary" lathe because it is bolted or mounted onto a fixed surface such as a workbench or floor. Unlike portable or handheld lathes, stationary lathes can handle more complex and larger projects, making them an ideal tool for skilled professionals and woodworking enthusiasts alike.
The basic operation of a stationary lathe involves spinning a piece of material or workpiece on its axis while cutting, drilling, or sanding it using various cutting tools. The workpiece is secured firmly in place with a chuck or other clamp-like devices while the operator uses various hand tools to control the cut. The operator also controls the speed at which the workpiece spins, which is usually adjusted via a speed control lever or dial. For precision work, digital readouts or dial indicators also help ensure consistent and accurate results.
Stationary lathes can be used for a variety of applications including woodworking, metalworking, and glassworking. Woodworking lathes are typically used for turning and shaping materials such as bowls, furniture legs, and spindles. Metalworking lathes, on the other hand, can be used for cutting threads, drilling holes, and turning metal parts for industrial applications. Glassworking lathes can be used for forming precise shapes and patterns in glass materials.
When shopping for a stationary lathe, there are several factors to consider such as size, power, and durability. A larger lathe may be ideal for larger projects, but may take up too much space in a small workshop. Similarly, a more powerful motor may be necessary for cutting tougher materials, but may also require more electricity to run. Durability and stability are also important factors, as a poorly constructed lathe may vibrate or wobble during use, resulting in poor quality work and potential safety hazards.
Overall, a stationary lathe is a versatile tool for performing a wide range of shaping and cutting tasks in woodworking, metalworking, and other industries. When properly maintained and used, it can provide years of reliable and efficient service for hobbyists, craftsmen, and professional workers alike.
Stationary lathes come in different types, each with its own unique features and capabilities. Here are some of the most commonly used stationary lathes:
1. Wood Lathes - These are the most popular stationary lathes for woodworking. They are designed to turn wood into various shapes and sizes, including furniture legs, bowls, and other decorative items. They come in different sizes and motor power to accommodate different types of projects. Some features of wood lathes include adjustable speed, tool rest, center-to-center distance, and a tailstock.
2. Metal Lathes - These are stationary lathes designed for turning metal objects, such as bolts, screws, and other metal parts. They are typically made of heavier materials to withstand the pressure and temperature generated by metalworking. Metal lathes come in various sizes and features, including speed control, cut-off tool, taper attachment, and digital readout.
3. Multi-Purpose Lathes - As the name suggests, these lathes are versatile and can be used for both wood and metalworking. They are ideal for those who work on different materials or require a broader range of functionality. Multi-purpose lathes come with adjustable speed, variable chucks, and added accessories for different types of operations.
4. Mini Lathes - These are small-sized stationary lathes that are ideal for hobbyists or those with limited space. They are designed for light-duty work such as pen turning, small crafts, and other small projects. They come in various sizes and features, including variable speed, small chucks, and adjustable tool rest.
5. CNC Lathes - These are computer-controlled stationary lathes designed for precision metalworking. They are capable of producing intricate and complex parts at high speeds with minimal human intervention. Some features of CNC lathes include touchscreen interface, digital readout, automatic tool changer, and various sensors for monitoring the machine's performance.
6. Engine Lathes - These lathes are designed for heavy-duty metalworking and production work. They are designed to handle larger objects such as crankshafts, gears, and axles. Some of the features of engine lathes include variable speed, power feed, rapid traverse, and large bed capacity.
In summary, the choice of stationary lathe depends on the type of work and materials you intend to use it for. Whether you are a hobbyist or a professional, there is a stationary lathe available that can meet your needs. Some of the key factors to consider when choosing a stationary lathe include size, motor power, speed, and the type of accessories it comes with.
A typical stationary lathe consists of a bed, headstock, tailstock, and tool rest. The bed is the foundation of the lathe and has to be strong enough to carry the weight of the workpiece and all the other parts. The weight capacity of the lathe bed can range from a few hundred pounds to several thousand pounds depending on the size of the lathe.
The weight capacity also depends on the length of the bed. Long bed lathes are used for turning large workpieces, such as furniture legs, posts, and columns. They are also used for turning boat spars, baseball bats, and other long items. A typical long bed lathe has a weight capacity of at least 500 pounds.
Size and weight capacity also vary with the swing of the lathe. The swing is the distance from the center of the lathe spindle to the bed. The larger the swing, the larger the diameter of the workpiece. A typical stationary lathe has a swing of between 10’-20" inches, which is suitable for most woodworking projects. However, heavy-duty lathes can have a swing of up to 48 inches.
The weight capacity of the lathe also depends on the motor power. A typical stationary lathe has a motor power of between 1/2 to 2 HP. The power of the motor determines how much torque is available to turn the workpiece. A stronger motor can handle heavier workpieces and larger diameter stock.
Weight capacity is also affected by the type of wood being turned. Softwoods such as pine and spruce are lighter than hardwoods such as oak, maple, and cherry. A typical stationary lathe can turn a workpiece up to 24" in diameter and 72" in length. However, certain hardwoods can be very heavy and require a larger motor and bed with higher weight capacity.
In summary, a typical stationary lathe has a weight capacity of a few hundred to several thousand pounds, depending on the size of the lathe, the length of the bed, the swing, the motor power, and the type of wood being turned. It is important to consider these factors when choosing a lathe for your woodworking projects.
Stationary lathes are used across a variety of industries and applications for creating symmetrical shapes and precise machining. They are used in woodworking, metal turning, and manufacturing to produce precise cuts and shapes in materials. This versatility has made stationary lathes an essential tool in both small and large scale production processes.
Woodworking is one of the primary applications of stationary lathes. Lathes are used for shaping and turning wood to create decorative elements like spindles, bowls, and furniture legs with precision and efficiency. Using a stationary lathe allows the woodworker to produce identical copies of the same object in a fraction of the time that it would take to produce them by hand. Additionally, the stationary lathe allows the woodworker to make intricate designs that would otherwise be impossible to achieve with manual tools.
Metal turning is another primary application of stationary lathes. Metalworkers use stationary lathes for precision cutting, drilling, and threading to create parts for machinery and equipment. The lathes can be used for creating parts for cars, bicycles, airplanes, and other complex machinery. The precision of stationary lathes makes it possible for manufacturers to produce consistent and high-quality parts, which is crucial in maintaining tight tolerances.
Manufacturing is another industry that relies heavily on stationary lathes. Factories use stationary lathes to produce various products, including bolts, nuts, screws, and other threaded parts. The lathes can also be used to create complex shapes that are used in molds for casting metals, plastics, and other materials.
CNC (Computer Numeric Control) technology has significantly improved the capabilities of stationary lathes. The use of CNC lathes allows for greater precision, repeatability, and speed of production. CNC lathes use computer software that can produce complex shapes and designs with accuracy, making it possible to manufacture intricate parts for various industries.
In summary, stationary lathes are a versatile tool used primarily in woodworking, metalworking, and manufacturing industries. They are essential in creating symmetrical shapes and precise machining. They allow for the efficient and precise creation of identical objects and parts, resulting in faster production times and maintaining tight tolerances. The introduction of CNC technology has significantly improved the capabilities of stationary lathes, making it possible to produce complex shapes and designs with accuracy.
Using a stationary lathe requires caution and attention to ensure safety in its operation. Proper safety measures should be taken to avoid accidents and keep the user and nearby individuals safe. Below are some safety precautions that should be taken while using a stationary lathe.
Firstly, it is essential to wear appropriate personal protective equipment (PPE) such as safety glasses, gloves, and earplugs. The safety glasses will protect the eyes from debris and dust, while the gloves provide a better grip and protect the hands from sharp edges. The earplugs are necessary to prevent hearing damage due to prolonged exposure to noise.
Secondly, before operating the lathe machine, it is essential to inspect it for any damages or cracks in the parts. If any issues are discovered in the lathe machine, they should be fixed before use. The lathe should be positioned on a sturdy and level surface with adequate lighting.
Thirdly, when working with a stationary lathe, the user should be aware of the rotation direction of the cutting tool and the workpiece. This information is crucial to ensure safety when completing the task. The cutting tool should be positioned parallel to the workpiece and not engaged too deeply to prevent any possible sudden movements.
Fourthly, avoid wearing loose jewelry, clothing, or hair that may get caught in the lathe machine. It is also essential to keep the work area free of clutter and debris to avoid any possible accidents that may be caused by slipping or tripping.
Fifthly, never leave the lathe machine unattended while it is running. It is crucial always to be aware and prepared for any possible sudden movements. The user should also be familiar with the emergency stop button location that can be used in case of any emergency.
Lastly, regular maintenance checks and servicing of the lathe machine should be carried out to ensure it stays in good condition. Proper oiling, cleaning, and replacement of the parts should be done as necessary to keep the lathe machine running smoothly.
In conclusion, using a stationary lathe machine requires caution and attention to ensure safety. Always wear personal protective equipment, inspect the machine before use, be familiar with the lathe machine's rotation direction, avoid wearing loose clothing and jewelry, never leave the machine unattended, and carry out regular maintenance checks. These precautious measures help prevent accidents and ensure that the user and near by individual remains safe.
Setting up and operating a stationary lathe can seem daunting at first, especially if you are new to woodturning. However, with a little knowledge and practice, you can quickly become comfortable using a lathe.
The first step in the process is to read the manual carefully. This will give you an understanding of the parts of your lathe and the tools needed to operate it effectively. Checking to make sure the lathe is properly set up is also important. The bench or table should be stable enough to keep the lathe from moving while in use.
Understanding the different types of woodturning tools is essential for operating a lathe. For example, gouges, skews, and chisels are standard tools required for turning wooden logs on the lathe. You should also ensure that the tools are sharp and in good condition before starting the lathe.
Once you have all the tools that you need for the woodturning project, it's time to get started. The first task is to mount the project log onto the lathe. Before putting the log in place, make sure that the tailstock is properly locked into position. Use the wrench and lever to tighten the log onto the lathe and make sure it's secure.
Turning your first wooden project on the lathe requires patience and practice, and you must be careful not to rush things. Start by turning the log slowly, focusing on shaping it to the desired size and form. Gradually work your way around the log and use different tools to achieve different shapes and contours.
Finally, when you finish a project on the lathe, it's important to turn off the machine and clean the workspace properly. Remove the debris that has collected during the turning process and put the tools back to their original places. You can also oil the lathe parts to prevent rusting.
In conclusion, setting up and operating a stationary lathe requires some patience and basic knowledge of the machine and woodworking tools. However, it's relatively easy to use once you have familiarized yourself with the process, and it can offer endless creative possibilities. Whether you are a beginner or a professional woodturner, the stationary lathe is an excellent tool for all your woodturning needs.
Proper maintenance of a stationary lathe is essential to keep it in good working condition. Routine maintenance tasks include cleaning, lubricating, and inspecting the various components on a regular basis. Here are some of the key maintenance tasks that should be performed to keep your lathe running smoothly.
First, clean the lathe regularly to remove any debris, dust, or metal shavings. This can be done using a soft cloth or brush, and some mild cleaning solution if necessary. Be sure to clean the chuck, tailstock, and any other moving parts thoroughly to prevent build-up or jamming.
Second, lubricate the moving parts of the lathe, including the spindle, gears, and bearings, with appropriate lubricants. Always follow the manufacturer's recommendations for the type and frequency of lubrication. This will help to reduce friction, heat, and wear on the parts, and ensure smooth operation.
Third, check the alignment of the lathe regularly to ensure that it is running true. Use a dial indicator to check the runout of the chuck or spindle, and adjust the alignment if necessary. If the lathe is out of alignment, it can cause excessive vibration, reduce accuracy, and cause premature wear on the parts.
Fourth, inspect the belts and pulleys on the lathe to ensure that they are properly tensioned and in good condition. Loose or worn belts can cause slippage, reduce power transmission, and put undue stress on other parts of the lathe. Replace any worn or damaged belts promptly to avoid further damage.
Fifth, check the electrical system on the lathe, including the wiring, switches, and motor, regularly to ensure that they are in good condition and functioning properly. Loose or damaged wiring can cause electrical shorts or fires, while faulty switches or motors can result in loss of power or damage to the lathe.
Lastly, keep the lathe in a clean, dry, and well-ventilated area, away from moisture, heat, or corrosive materials. Cover the lathe when not in use to prevent dust and debris from accumulating on the parts, and protect it from accidental damage or theft.
By performing these routine maintenance tasks, you can ensure that your stationary lathe stays in good working condition for many years to come. Regular maintenance will also help to reduce repair costs, minimize downtime, and increase productivity.
Stationary lathes are versatile machines used for shaping wooden, metal, and other materials to create various objects such as bowls, furniture, and toys. These lathes come with various accessories and attachments that make them even more functional and enhance their precision and accuracy. Below are some of the accessories and attachments used with stationary lathes.
1. Chucks and Faceplates: These are the most basic accessories for stationary lathes. A chuck is a clamp that attaches to the lathe spindle and holds workpieces in place during turning. Faceplates are flat metal disks with holes for screws that attach to the front of the lathe headstock and provide a broad base for holding non-symmetrical workpieces.
2. Tool Rests: A tool rest is a support mechanism that holds turning tools at the correct angle and distance from the workpiece to provide stability and accuracy. They are available in various sizes and shapes and can be adjusted to accommodate different cutting angles and workpiece sizes.
3. Tailstock: A tailstock is a support mechanism at the opposite end of the lathe bed from the headstock. It provides additional support and stability for long workpieces and keeps them centered on the lathe. The tailstock can also hold a drill chuck for drilling holes in the workpiece.
4. Steady Rest: A steady rest is a support mechanism that provides additional support for long, thin workpieces that tend to vibrate or deflect during turning. It consists of three arms that can be adjusted to fit around the workpiece and keep it stable while turning.
5. Live Center: A live center is a rotating center inserted into the tailstock to provide additional support for longer workpieces that are not completely supported by the tailstock. It has a center point that rotates with the workpiece and reduces friction and wear on the tool.
6. Sanding and Finishing Accessories: These include sandpaper holders, buffing wheels, and other accessories that attach to the lathe to sand and finish workpieces after turning. They come in various shapes and sizes and can be used to create different finishes, textures, and colors on the workpiece.
In conclusion, stationary lathes are versatile machines that can be customized to meet specific turning needs. The accessories and attachments discussed above can enhance the precision, accuracy, and functionality of the lathe and provide a wider range of turning options. When choosing accessories for your lathe, consider the type of workpieces you will be turning and the level of precision and accuracy required.
A stationary lathe is a machinery used for shaping and carving wood, metal, and other materials. The cost of a typical stationary lathe varies widely, depending on the brand, model, and features. Generally, a basic model can cost anywhere from $200 to $1000, while a high-end model can cost upwards of $10,000.
When shopping for a stationary lathe, it is important to consider the size, power, and speed of the machine. Larger machines typically have higher price tags, as do those with more powerful motors and variable speed control. Similarly, specialty lathes designed for specific tasks, such as pen turning or bowl turning, can also be more expensive.
Another factor that affects the cost of a stationary lathe is the quality of the construction and materials. High-quality lathes are typically made of more durable materials, such as cast iron or steel, and are built to withstand heavy use over time. Additionally, lathes with advanced features, such as digital readouts or automatic tool changers, also tend to be more expensive.
Brand reputation is another factor that can influence the cost of a stationary lathe. Well-known brands with a history of producing high-quality machinery tend to cost more than lesser-known brands or generic models. Similarly, warranties and customer support can also affect the price and perceived value of a lathe.
Finally, the cost of accessories and attachments should also be factored into the overall price of a stationary lathe. Items such as chucks, tool rests, and tailstock centers can quickly add up, so it's important to budget for these items when considering the cost of a lathe.
In summary, the cost of a stationary lathe can vary widely depending on a range of factors, including size, power, speed, construction quality, brand reputation, and accessories. While a basic model can be relatively affordable, those looking for more advanced features or specialized functionality should expect to invest substantially more. Regardless of the price, it's essential to choose a well-constructed and reliable lathe that meets your needs and budget.
When it comes to buying electronics, quality and performance are two critical factors that buyers consider before making a purchase. Several brands and models in the market offer high-quality and top-performing products that attract consumers' attention. In this article, we will explore the brands and models that are highly recommended for their quality and performance.
1) Apple - Apple has been a top-rated brand for its quality and performance in electronics. Their products have been popular for their sleek designs, intuitive user interface, and software integration. The MacBook Pro, iPad, and iPhone stand out for their impressive processing speed, graphics, and long battery life. Apple laptops are known for their high-resolution Retina displays and the ability to perform heavy tasks seamlessly. The brand's mobile devices are known for their camera quality and user-friendly operating system.
2) Samsung - Samsung is another popular brand renowned for its quality and performance. The brand offers a broad range of products, from smartphones to tablets, laptops, TVs, and home appliances. Samsung's smartphones, such as the Galaxy Note 10+ and S20, offer users the latest features, such as a high-quality camera, long battery life, and exceptional processing power. Their TVs offer some of the best display and resolution options in the market.
3) LG - LG is another popular brand that produces high-quality and durable electronics, such as TVs, smartphones, home appliances, and laptops. LG's OLED TVs are known for their vibrant color range, deep blacks, and crisp resolution. Their smartphones, such as the LG V60 ThinQ and LG G8X ThinQ, stand out for their camera quality and long battery life.
4) Sony - Sony is a brand known for producing high-quality and top-performing TVs, headphones, gaming consoles, cameras, and laptops. The Sony Bravia TV series is known for its impressive color range, brightness, and contrast. Sony's headphones offer a high level of comfort and noise cancellation, making them ideal for music lovers and travelers. The PlayStation 5 is the latest gaming console from Sony, offering users a seamless gaming experience coupled with top-notch graphics.
5) Bose - Bose is a brand that produces high-quality and performance-driven headphones, speakers, and sound systems. Bose headphones are known for their crisp sound, noise cancellation features, and durability. Their speakers and home sound systems offer users exceptional sound quality, clarity, and versatility.
6) Dell - Dell is a brand that provides high-quality and top-performing laptops, desktops, and gaming PCs. Their laptops offer users impressive processing power, long battery life, and a wide range of display and graphics options. Their desktop models cater to professionals and gamers alike, offering high processing power, graphics, and upgradability options.
In conclusion, these are some of the brands and models that come highly recommended for their quality and performance. If you're in the market for a new electronic device or appliance, be sure to consider one of these top-performing brands/models. They offer excellent value for money, the latest features, and exceptional durability.