Types of Woodworking Machines

Woodworking machines can be broadly classified into two main categories: hand-operated machines and power-driven machines. These can be further divided based on their functions like cutting, shaping, and sanding. Below are the most common woodworking machines and their applications.

1. Table Saws

The table saw is a fundamental machine in any woodshop. It’s designed for ripping large boards into smaller pieces. A table saw consists of a circular saw blade mounted on an arbor, driven by an electric motor. The blade protrudes through the top of a table, providing support for the material, which is cut as it’s pushed into the spinning blade.

  • Use cases: Ideal for making straight cuts (both crosscuts and rips), table saws are often the first machine woodworkers turn to when breaking down rough lumber.
  • Variations: There are portable benchtop table saws, contractor saws for medium-duty jobs, and larger cabinet saws for professional and industrial use.

2. Band Saws

A band saw uses a long, continuous band of toothed metal to make cuts. These saws are incredibly versatile and can make both straight cuts and intricate curved shapes, depending on the blade’s width and tooth configuration.

  • Use cases: Band saws are frequently used for re-sawing large pieces of wood, cutting veneers, and making curved or irregular cuts in wood.
  • Features: Vertical band saws are most common in woodworking, and they allow for a significant level of control, particularly with curved cuts.

3. Planers

A planer (also known as a thickness planer) smooths the surface of a board and ensures that it has a uniform thickness across its entire length. A planer is vital for ensuring wood is flat and straight, which is essential for many projects like cabinetry and furniture making.

  • Use cases: Useful for reducing board thickness and achieving a smooth finish.
  • Features: A planer works in conjunction with a jointer to prepare wood for precision joinery.

4. Jointers

A jointer is used to create flat surfaces along the edges of boards, making it perfect for preparing the material for glue-up, where boards need to fit snugly together.

  • Use cases: Often used for flattening warped or bowed wood, creating smooth edges, and preparing stock for planing.
  • Features: A jointer has an adjustable infeed table, and you can control the depth of cut depending on the wood.

5. CNC Routers

A CNC router is a computer-controlled cutting machine. These routers are highly advanced and allow for precision cutting, engraving, and carving based on pre-programmed designs. CNC routers are common in both woodworking and metalworking industries.

  • Use cases: Ideal for intricate patterns, detailed cuts, and high-volume production.
  • Features: CNC routers can cut wood, composite materials, and plastics with high precision. They are perfect for creating repeatable designs and complex shapes.

6. Lathes

A wood lathe is designed for turning wood, a process where a piece of wood spins against a stationary cutting tool. Lathes allow the operator to shape wood into various cylindrical shapes, such as spindles, table legs, or decorative objects.

  • Use cases: Primarily used for turning wood into cylindrical shapes or adding intricate details to round objects.
  • Features: Modern lathes offer variable speed settings and a variety of tool rests to allow for fine adjustments while turning.

7. Mortisers

A mortiser is a specialized machine used to cut square or rectangular holes into a piece of wood. This machine is particularly useful for creating mortise and tenon joints, a common woodworking joint in furniture making.

  • Use cases: Often used in furniture-making for joining two pieces of wood at right angles.
  • Features: Mortisers are available in benchtop and floor-standing models, and they come with either hollow chisel or slot mortising configurations.

8. Spindle Moulders

A spindle moulder (or shaper) is a machine that uses interchangeable cutter heads to shape wood. It’s a versatile machine used for producing mouldings, trimming edges, and shaping wood into various profiles.

  • Use cases: Spindle moulders are commonly used in the production of window frames, doors, and other detailed woodwork.
  • Features: This machine is highly adjustable and can be configured with various profiles depending on the woodworking project.

9. Drum Sanders

A drum sander is a powerful sanding machine that uses a rotating drum covered in abrasive material to smooth out rough wooden surfaces. These are perfect for sanding large, flat surfaces like tabletops and panels.

  • Use cases: Ideal for smoothing large areas of wood to prepare them for finishing.
  • Features: Drum sanders can handle wider pieces of wood than most hand-held sanders, making them perfect for large projects.

10. Edgebanders

An edgebander is a machine used to apply a protective and decorative edge to raw or unfinished wood. Edgebanding is commonly done on plywood or MDF panels used in cabinetry and furniture manufacturing.

  • Use cases: Essential for finishing the edges of plywood or composite wood used in cabinet-making.
  • Features: Edgebanders ensure clean, smooth edges on your material, which adds both aesthetic appeal and durability.

Woodworking Machines for Sale at TWS Wood

If you’re looking to purchase woodworking machines, TWS Wood offers a comprehensive range of new and used machines, including all the essential types mentioned above. Whether you’re a hobbyist looking for a small benchtop table saw or a professional in need of an industrial-grade planer, TWS Wood provides reliable and affordable options for every need.

Featured Brands at TWS Wood

  • Casadei: Known for their high-quality machines that balance functionality and innovation. Casadei’s range includes table saws, planers, and edge-banding machines that cater to professionals and hobbyists alike.
  • SCM: A leader in woodworking machinery, SCM offers an extensive lineup of high-performance machines, including CNC routers, edgebanders, and industrial lathes. SCM machines are designed for durability and precision, making them a top choice for woodworking professionals.
  • Wadkin Bursgreen: With a rich history in producing reliable woodworking machines, Wadkin Bursgreen’s machines are well-regarded for their durability and precision. Their planers, band saws, and spindle moulders are especially popular among woodworkers looking for long-lasting performance.
  • Sedgwick: Known for their traditional design and solid construction, Sedgwick woodworking machines are ideal for workshops that need heavy-duty, reliable tools. Their spindle moulders, saws, and planers offer excellent value for money, especially for industrial applications.

Conclusion

Investing in the right woodworking machinery can significantly boost the quality and efficiency of your work. Whether you’re looking for a table saw, planer, or spindle moulder, TWS Wood offers a wide range of options, including some of the best brands in the industry like Casadei, SCM, Wadkin Bursgreen, and Sedgwick. By carefully choosing the right tools and machines for your specific projects, you’ll be able to take your woodworking skills to the next level

Things to look for when buying a woodworking machine

When buying a woodworking machine, there are several important factors to consider to ensure you’re making the right investment. Whether you’re setting up a professional workshop or upgrading your home setup, here’s what to look for:

1. Machine Type and Application

  • Purpose: First, identify what the machine is primarily designed for. For example, a table saw is great for cutting large panels, while a band saw excels at cutting curves. Choose a machine that aligns with your specific woodworking tasks.
  • Multi-functionality: Some machines are versatile and perform multiple tasks, while others are highly specialized. If you’re limited on space, consider machines that can perform more than one function.

2. Build Quality and Durability

  • Materials: Machines made with cast iron, steel, and other high-quality materials tend to be more durable and stable. Sturdy construction reduces vibrations during use, which contributes to better precision and safety.
  • Brand reputation: Trusted brands like SCM, Casadei, Sedgwick, and Wadkin Bursgreen are known for producing reliable, long-lasting machines. Look for reviews and ask for recommendations from experienced woodworkers to ensure you’re purchasing from a reputable manufacturer.

3. Power and Motor Size

  • Motor size: The horsepower (HP) of the motor determines the power of the machine. Higher horsepower is necessary for tougher, denser woods and larger projects. For instance, industrial machines typically have motors ranging from 2 HP to 5 HP or more.
  • Voltage requirements: Check the electrical requirements for the machine. Some industrial machines require 240V or 3-phase power, while others may run on standard 120V outlets.

4. Precision and Accuracy

  • Fence and guide systems: Table saws, planers, and jointers rely heavily on a good fence and guide system for making accurate cuts. Look for machines with adjustable, easy-to-calibrate fences to ensure precision.
  • Blade alignment: Machines with accurate blade alignment will produce cleaner cuts, reducing the need for extra finishing work. Poor alignment can lead to wasted material and time.

5. Safety Features

  • Blade guards and riving knives: Always choose machines with built-in safety features like blade guards and riving knives, especially for saws. These features prevent kickbacks and protect the user from injuries.
  • Emergency stop buttons: Many larger machines have emergency stop buttons to quickly shut down the machine in case of an accident.
  • Dust collection ports: Dust collection is essential for keeping your workshop clean and reducing airborne particles, which can be hazardous to your health. Machines with integrated dust collection ports help manage this.

6. Ease of Use and Adjustability

  • Controls: Machines with intuitive controls and easy-to-reach settings are more convenient to use. Look for machines with smooth adjustments for depth, blade angles, and speed.
  • Ergonomics: A machine that’s comfortable to operate for long periods can reduce fatigue and improve efficiency. Adjustable stands or machine heights can also make a big difference.

7. Size and Space Requirements

  • Workshop space: Make sure the machine will fit comfortably in your workspace without crowding the area. Some machines, like CNC routers, can be very large, so measure your available space before making a purchase.
  • Portability: If you have limited space or need to move the machine around your workshop, consider mobile bases or machines that are lightweight and portable.

8. Maintenance and Support

  • Ease of maintenance: Machines with easily accessible parts make routine maintenance tasks like cleaning and oiling more manageable. A machine that’s difficult to maintain will require more downtime and could cost more in the long run.
  • Warranty and customer support: A solid warranty is a good indication of a company’s confidence in its product. Additionally, check for the availability of spare parts and customer support. Some brands offer better after-sales service than others.

9. Price and Budget

  • Initial investment vs. long-term value: Don’t just consider the upfront cost. A cheaper machine might not last as long or perform as well as a higher-quality machine, leading to more replacements or repairs. Balance your budget with the machine’s long-term value.
  • Used vs. new machines: If you’re on a tighter budget, consider buying used machinery. Many suppliers, like TWS Wood, offer high-quality second-hand woodworking machines that are fully refurbished and can save you money without sacrificing performance.

10. Noise Levels

  • Noise reduction features: Woodworking machines can be loud, and prolonged exposure to high noise levels can be damaging to your hearing. Machines that have built-in noise reduction features, or the ability to connect to quieter dust extraction systems, are worth considering.
  • Location of your shop: If you’re working in a residential area, a quieter machine may be essential to avoid disturbing neighbors or violating local noise ordinances.

11. Software and Technology Integration (CNC Machines)

  • CNC Machines: For advanced woodworkers, CNC routers are computer-controlled machines that can execute complex cuts with extreme precision. When buying CNC woodworking machines, consider the software compatibility and the ease of programming the machine for custom tasks.
  • Updates and tech support: CNC machines often require software updates and tech support, so check if the manufacturer provides ongoing updates and assistance.

Conclusion

Choosing the right woodworking machine involves a combination of practicality, precision, and long-term value. When making a purchase, consider what types of projects you’ll be working on, the space available, and your budget. High-quality brands like SCM, Casadei, Wadkin Bursgreen, and Sedgwick provide reliable machinery, but always ensure that the machine meets your specific needs, from power requirements to ease of use.

By thoroughly evaluating these key factors, you can invest in a woodworking machine that not only meets your immediate needs but will continue to deliver quality and efficiency for years to come

 

Why consider buying a used woodworking machine?

Considering a used woodworking machine can offer several significant advantages, especially for woodworkers or manufacturers looking to balance quality and budget. Here’s why you should consider purchasing a used woodworking machine:

1. Cost Savings

  • Lower Initial Investment: Used woodworking machines are often sold at a fraction of the price of new ones. This can be particularly beneficial for those starting a new workshop or expanding their existing setup on a budget.
  • More for Your Money: By purchasing used equipment, you may be able to afford higher-quality or more feature-rich machines than you could if buying new. For example, a high-end brand like SCM or Wadkin Bursgreen could be within reach at a used price.

2. Proven Reliability and Durability

  • Longevity of Industrial Machines: Many woodworking machines, especially industrial-grade models, are built to last. Older machines are often constructed from heavier-duty materials like cast iron, which can withstand wear and tear over time. If a machine has lasted years in a workshop and still functions well, it can be a good indicator of its durability.
  • Well-Maintained Used Machines: Many used machines are sold by professional workshops that have diligently maintained them, including regular cleaning, lubrication, and part replacements. If properly cared for, used machines can continue to perform efficiently for many years.

3. Availability of Parts and Support

  • Easier Access to Spare Parts: For some machines, especially older models from reputable brands like Sedgwick or Casadei, spare parts are easier to come by than parts for newer, less-established models. Established brands often have long-standing support networks, making maintenance easier and more cost-effective.
  • Manuals and Resources: Used machines may also come with extensive documentation, repair guides, and user manuals, which could be harder to find for newer models. This is particularly useful for troubleshooting and regular maintenance.

4. Depreciation Benefits

  • Avoid Initial Depreciation: Like with cars, new woodworking machines lose value the moment they leave the factory or showroom floor. When buying used, you avoid the steep initial depreciation and can often sell the machine later at a minimal loss if it’s well-maintained.
  • Better Resale Value: If you plan to upgrade in the future, the depreciation curve is gentler for used machines. This means you could potentially resell your used machine without incurring a significant financial hit.

5. Fewer Technological Complexities

  • Simplicity and Mechanical Reliability: Many older woodworking machines rely on simple, robust mechanics rather than complicated electronics. This simplicity can make them easier to repair and maintain. If a mechanical part breaks, it’s often cheaper to replace than a computerized component.
  • Less Downtime Due to Software Issues: Some new machines, especially CNC models, rely heavily on software and electronic components that can malfunction or become outdated. Used machines, especially older, non-CNC models, may be less prone to technical glitches that cause downtime in your workshop.

6. Environmental Benefits

  • Sustainability: Buying used machinery supports sustainability by extending the lifespan of existing equipment and reducing the demand for new manufacturing. This helps to minimize the carbon footprint associated with producing new machinery and contributes to a more environmentally conscious business model.
  • Resource Conservation: Used machines also help conserve the raw materials (such as steel, aluminum, and plastic) and energy required to manufacture new machines, which can be a selling point for eco-conscious businesses.

7. Immediate Availability

  • Quicker Acquisition: New machines, especially those made to order or imported from overseas, can have long lead times before delivery. Used machines, on the other hand, are typically available for immediate purchase and use, allowing you to get your workshop up and running faster.
  • Wide Selection: There is a broad selection of used machines on the market at any given time. This gives you the opportunity to shop around for the exact model, year, and specifications you need without being constrained to what’s currently being manufactured.

8. Classic Engineering and Craftsmanship

  • Older Models with Superior Build Quality: Some older woodworking machines are known for their superior craftsmanship and heavier construction compared to newer, mass-produced models. For instance, brands like Wadkin Bursgreen are renowned for their solid, classic designs that have stood the test of time.
  • Industrial-Grade for Less: If you’re looking for industrial-grade machinery that can handle larger, tougher jobs, you may find better deals in the used market than in the new market, where equivalent machines can be prohibitively expensive.

9. Customization and Flexibility

  • Modifiable: Used machines are often easier to modify or upgrade with additional components like new blades, motors, or fences. With the lower initial investment, you might find room in your budget for making upgrades that tailor the machine more specifically to your needs.
  • Custom Work: If you’re looking for specialized machines like custom spindle moulders or specific types of joinery equipment, the used market may offer unique finds that aren’t readily available new.

10. Fewer Unnecessary Features

  • Avoid Over-Complication: Modern machines often come packed with features and options that many woodworkers don’t actually need. With used machines, especially older models, you often get just the essential features required for getting the job done efficiently.

Conclusion

Buying a used woodworking machine is a smart option for many woodworkers and manufacturers. With cost savings, proven durability, and immediate availability, used machines offer significant advantages over their newer counterparts. Trusted brands like SCM, Casadei, Wadkin Bursgreen, and Sedgwick produce reliable, high-quality machines that stand the test of time. By carefully considering your needs and inspecting the machine’s condition, you can make a sound investment that boosts your workshop’s productivity while maintaining long-term value.

Maintaining woodworking machines

Maintaining your woodworking machines is crucial for ensuring their longevity, performance, and safety. Proper maintenance helps avoid breakdowns, extend the life of the equipment, and maintain the quality of your projects. Here’s a comprehensive guide on how to maintain your woodworking machines:

1. Regular Cleaning

  • Debris Removal: Sawdust, wood chips, and other debris can accumulate on and around your woodworking machines, potentially causing malfunctions and reducing efficiency. Clean your machines after every use to prevent build-up.
  • Compressed Air: Use compressed air to blow away debris from hard-to-reach areas. Ensure that the machine is turned off and unplugged before using air.
  • Lubrication: Keep moving parts like bearings, gears, and joints well-lubricated to minimize friction and prevent rust or wear. Use the recommended lubricants for your specific machine.

2. Routine Inspection

  • Inspect Blades and Cutters: Dull blades can ruin your material and put unnecessary strain on your machine’s motor. Regularly check and sharpen or replace saw blades, router bits, planer knives, and chisels to ensure smooth operation.
  • Check for Wear: Look for signs of wear and tear on belts, pulleys, and other parts. If you notice any frayed edges, cracks, or excessive wear, replace the damaged parts immediately.
  • Belt Tension: Periodically check the belt tension on machines like table saws and jointers. Belts that are too loose can slip, reducing efficiency, while belts that are too tight can cause unnecessary wear.

3. Lubrication and Oiling

  • Follow the Manufacturer’s Recommendations: Each woodworking machine will have specific points that require oiling or greasing. Lubricate these points according to the manufacturer’s maintenance schedule.
  • Use Appropriate Products: Use the proper oils, greases, or lubricants specified in the machine’s manual. Over-lubricating or using the wrong type of lubricant can cause more harm than good.

4. Calibration

  • Aligning Blades and Fences: Machines like table saws, jointers, and planers require precise alignment to produce accurate cuts. Regularly check and recalibrate fences, blade angles, and tables to maintain accuracy.
  • Depth Adjustments: For machines like planers and routers, frequently check the cutting depth to ensure consistent results.

5. Electrical Components

  • Inspect Electrical Connections: Check the machine’s wiring, switches, and power cables for any signs of damage. Damaged electrical components can be hazardous and should be replaced or repaired immediately.
  • Dust in Electrical Panels: Keep electrical panels free from sawdust or debris to prevent overheating or electrical shorts. Dust can accumulate in motor housings, reducing efficiency and causing overheating.

6. Dust Extraction

  • Use a Dust Collection System: Machines like saws and planers produce a lot of sawdust, which can clog the machine or impair performance. A dust extraction system helps keep the workspace clean and prevents sawdust from accumulating in machine components.
  • Clean Filters Regularly: If your machine has integrated dust collection or if you use a separate dust collector, clean or replace the filters frequently to maintain efficiency.

7. Sharpening Cutting Tools

  • Blades: Sharpen saw blades, chisels, and planer knives regularly to maintain clean, accurate cuts. Dull tools not only reduce the quality of your work but can also strain your machine’s motor.
  • Professional Sharpening: While some blades and knives can be sharpened at home, others may require professional sharpening services. Follow the recommended sharpening intervals based on usage.

8. Machine-Specific Maintenance Tips

  • Table Saws: Keep the blade clean and sharp, and make sure the miter gauge and fence are square and aligned. Also, ensure the trunnion is lubricated and moves smoothly.
  • Band Saws: Check blade tension and tracking regularly, and lubricate the blade guides. Keep the tires clean to avoid slippage.
  • Planers and Jointers: Frequently check the alignment of the cutting head and the tables. Ensure the feed rollers are free from debris, and the blades are sharp.
  • Routers: Keep the collet clean to ensure it holds the bit securely. Regularly inspect the brushes in the motor for wear, and replace them if necessary.

9. Maintaining Bearings and Bushings

  • Bearings: Bearings are crucial for the smooth operation of motors and other moving parts. Regularly check them for wear and replace if they become noisy or stiff.
  • Bushings: Some machines use bushings rather than bearings. These should also be inspected and lubricated regularly to prevent wear.

10. Storage and Environment

  • Control Humidity: Excessive moisture in the workshop can lead to rust and corrosion on metal parts. Consider using a dehumidifier if your workspace is prone to high humidity.
  • Proper Storage: When not in use, cover your machines with protective tarps or dust covers to prevent dust accumulation and exposure to the elements.

11. Safety Checks

  • Emergency Stops and Guards: Ensure that emergency stop buttons and machine guards are functioning properly. Machine guards should always be in place while operating to prevent accidents.
  • Safety Features: Test safety features like blade brakes, kill switches, and overload protection systems. If any of these are malfunctioning, fix them immediately.

12. Keep a Maintenance Log

  • Record Keeping: Maintain a detailed log of all maintenance performed on each machine. This helps you track when parts were last replaced or when the machine was last lubricated, ensuring nothing is overlooked.

Conclusion

Maintaining your woodworking machines is essential for ensuring consistent, high-quality work, safety, and long-lasting machinery. Regular cleaning, inspections, lubrication, and calibration will help keep your equipment in top working order. A well-maintained machine performs more efficiently, produces better results, and is less likely to break down. By following these tips, you’ll not only protect your investment but also improve the overall productivity and safety of your workshop.

Woodworking machines available at TWS Wood

Woodworking machines are essential tools for professionals and hobbyists alike, enabling them to transform raw materials into finished products with precision and efficiency. At TWS Wood, a wide array of woodworking machines is available, catering to diverse needs in the woodworking industry. Below is an in-depth guide to the types of woodworking machines offered by TWS Wood, detailing their functions and applications.

1. Band Resaws

  • Function: Band resaws are designed to cut large timber into smaller sections, such as boards or planks. They are essential for high-precision and high-capacity timber cutting, making them ideal for sawmills or workshops dealing with large volumes of wood.
  • Application: Used primarily for resawing thick boards, turning logs into lumber, and for intricate cutting tasks that require fine detailing.

2. Bandsaws

  • Function: A bandsaw consists of a continuous band of toothed metal that rotates around two wheels. It is widely used for making curved cuts and resawing wood into thinner slabs.
  • Application: Ideal for creating irregular shapes, ripping lumber, or cutting tenons. Bandsaws are highly versatile and can be used for detailed, intricate work as well as heavy-duty cutting.

3. Crosscut Saws

  • Function: Crosscut saws are used to cut wood perpendicular to its grain, which is ideal for accurately cutting boards to length.
  • Application: These saws are mainly used in framing and joinery work, ensuring clean and precise cuts for wood joints or assembly work.

4. Dust Extraction Systems

  • Function: Dust extraction systems are essential for maintaining a clean and safe work environment by removing sawdust, chips, and other airborne particles.
  • Application: Vital for any woodworking workshop, especially those using high-speed machinery like saws or sanders, where dust can accumulate quickly.

5. Edge Banders

  • Function: Edge banders apply a band of material to the edge of a panel to provide a finished look. This is especially important for furniture manufacturing where raw panel edges are exposed.
  • Application: Used for finishing edges of wood or MDF panels, primarily in cabinetry and furniture production.

6. Four-Sided Planers

  • Function: Four-sided planers are designed to plane all four sides of a piece of wood simultaneously, offering uniformity in size and shape.
  • Application: Frequently used in the production of flooring, moldings, and other high-precision wood components.

7. Grinders

  • Function: Grinders are used to sharpen tools, remove material, or polish surfaces by means of an abrasive wheel.
  • Application: Essential for maintaining cutting tools like chisels and blades, ensuring they remain sharp and effective for woodworking tasks.

8. Heaters

  • Function: Heaters provide necessary warmth in workshops, particularly in colder climates, ensuring both worker comfort and better material handling.
  • Application: Ideal for maintaining optimal working conditions in large, unheated workshops or industrial settings.

9. Mortisers

  • Function: Mortisers are used to cut square or rectangular holes in wood, creating mortise joints.
  • Application: Primarily used in furniture making and carpentry to create strong, durable joints.

10. Panel Saws

  • Function: Panel saws are used to cut large sheets of material, such as plywood or MDF, into smaller, more manageable pieces.
  • Application: Ideal for cabinetry, furniture making, and general woodworking, where precision and speed are critical.

11. Planer Thicknessers

  • Function: A planer thicknesser is a dual-purpose machine that planes and smooths rough lumber to a consistent thickness.
  • Application: Often used in small workshops for producing smooth, even boards from rough lumber.

12. Ripsaws

  • Function: Ripsaws are designed to cut along the grain of the wood, making them ideal for cutting larger pieces of timber.
  • Application: Primarily used for ripping boards and planks from logs or larger sections of timber.

13. Routers

  • Function: Routers are used for hollowing out areas in wood, creating grooves, or shaping edges.
  • Application: Used in cabinetry, furniture making, and detailed woodworking projects for tasks such as creating decorative edges or joints.

14. Disc & Belt Sanders

  • Function: These sanders use abrasive belts or discs to smooth surfaces, remove material, and shape wood.
  • Application: Ideal for finishing work, smoothing surfaces, and preparing wood for finishing processes like varnishing or painting.

15. Wide Belt Sanders

  • Function: Wide belt sanders are large industrial machines that use wide abrasive belts to sand large panels or planks.
  • Application: Common in large-scale furniture manufacturing and panel processing for achieving uniform surface finishes.

16. Spindle Moulders

  • Function: A spindle moulder is used to shape edges, cut profiles, and produce moldings in wood.
  • Application: These machines are key in the production of door frames, windows, and detailed woodwork.

17. Stair Trenchers

  • Function: Stair trenchers are used to cut recesses in stair stringers where the treads and risers will sit.
  • Application: Essential for precision work in stair manufacturing.

18. Surface Planers

  • Function: Surface planers smooth and flatten one surface of a board, ensuring it is straight and true.
  • Application: Used in combination with thicknessers for preparing timber for joinery work or furniture making.

19. Tenoners

  • Function: Tenoners are machines that cut tenons on the end of wooden pieces to create strong joints.
  • Application: Often used in door and window frame construction.

20. Thicknessers

  • Function: Thicknessers are designed to plane wood to a uniform thickness, parallel to the opposite surface.
  • Application: Ideal for workshops needing precise, evenly planed wood for joinery, furniture making, or cabinetry.

21. Universal Combination Machines

  • Function: Combination machines incorporate multiple woodworking functions in one machine, such as sawing, planing, and routing.
  • Application: Ideal for small workshops or hobbyists needing a versatile solution in limited space.

22. Wall Saws

  • Function: Wall saws are vertical panel saws that allow for precise cutting of large sheets while taking up minimal floor space.
  • Application: Perfect for workshops that handle large sheet materials like plywood or MDF but need to save on space.

TWS Wood offers an extensive range of woodworking machines designed to meet the needs of various industries and applications. Whether you are a small workshop or a large-scale industrial operation, choosing the right machine can help increase efficiency, precision, and the quality of your projects.