1–12/100개 결과 표시

USED DIE CASTING MACHINE FOR SALE

Explore top-quality used die casting machines for sale at competitive prices. Our inventory includes a variety of high-performance machines suitable for all types of die casting processes, including aluminum, zinc, and magnesium casting. With options from leading manufacturers, our selection caters to businesses looking to enhance their production capabilities without the hefty investment in new equipment. Whether you're expanding your operations or replacing older machinery, find the perfect used die casting machine to meet your production requirements and budget constraints. Visit our marketplace today to browse the latest listings and take the first step towards optimizing your manufacturing process.

자주하는 질문

This FAQ offers a deep dive into die casting machines, covering their operation, types, maintenance, and troubleshooting tips. Perfect for manufacturers, engineers, and hobbyists, it provides expert insights and practical advice to optimize performance, enhance productivity, and ensure the longevity of your die casting equipment.

띠톱은 다양한 재료, 가장 일반적으로 목재, 금속 및 플라스틱을 톱질하는 데 사용되는 다용도 전동 공구입니다. 이는 재료를 절단하기 위해 두 개 이상의 휠 사이에 늘어진 연속적인 톱니형 금속 밴드로 구성됩니다. 이 띠톱날은 연속 루프로 이동하므로 균일한 절단 작업이 가능하고 직선 절단과 불규칙 절단, 곡선 절단 모두 정밀하게 수행할 수 있습니다.

띠톱은 소형 벤치탑 모델부터 대형 바닥 설치형 산업용 기계까지 다양한 크기로 제공됩니다. 띠톱의 크기는 일반적으로 바퀴의 직경과 목(날에서 톱의 수직 프레임 부분까지의 거리)에 따라 결정됩니다. 이는 절단할 수 있는 재료의 최대 너비를 결정합니다.

다른 유형의 톱에 비해 띠톱의 주요 장점 중 하나는 재료의 가장자리부터 시작하지 않고도 복잡한 절단을 할 수 있다는 것입니다. 이로 인해 목공, 금속 가공, 복잡한 부품이나 예술 작품 제작에 특히 유용합니다. 또한 띠톱의 날이 아래쪽으로 움직이기 때문에 절단 중에 톱질되는 재료가 움직이거나 이동하는 경향이 적어서 더 정확하고 깔끔한 절단이 가능합니다.

띠톱을 효과적이고 안전하게 사용하려면 기본 작동 방법을 이해하고 올바르게 설정하며 안전 지침을 따라야 합니다. 띠톱 사용 방법에 대한 단계별 가이드는 다음과 같습니다.

1. 안전 제일

  • 보안경, 청력 보호구, 먼지 마스크 등 적절한 개인 보호 장비(PPE)를 착용하십시오.
  • 긴 머리는 뒤로 묶어야 하며, 헐렁한 옷이나 장신구가 기계에 끼일 수 있으므로 피하십시오.

2. 띠톱 검사 및 준비

  • 띠톱에 마모나 손상의 흔적이 있는지 확인하십시오. 칼날이 날카롭고 장력이 적절하며 절단하려는 재료와 유형에 적합한지 확인하십시오.
  • 절단할 재료의 두께에 따라 칼날 가이드와 보호대를 조정하여 재료 표면 바로 위에 위치하도록 하여 칼날 노출을 최소화합니다.

3. 공작물 설정

  • 재료를 제자리에 단단히 고정하거나 단단히 고정하십시오. 조각이 작거나 모양이 불규칙한 경우 지그나 푸시 스틱을 사용하여 칼날에서 손을 안전하게 보호하는 것이 좋습니다.

4. 컷을 만드세요

  • 띠톱의 전원을 켜고 절단을 시작하기 전에 최고 속도에 도달하도록 하십시오.
  • 정확하게 절단하는 경우 표시된 선을 따라 재료를 블레이드에 부드럽게 공급합니다. 강제로 힘을 가하거나 구속하지 않고 블레이드가 절단될 수 있도록 일정한 이송 속도를 유지하십시오.
  • 손가락과 손은 항상 블레이드에서 안전한 거리를 유지하십시오. 밀착 작업에는 푸시 스틱이나 푸시 블록을 사용하십시오.

5. 곡선과 모서리 관리

  • 곡선의 경우 릴리프 컷을 만들어 여분의 재료를 제거하고 블레이드에 가해지는 응력을 줄입니다. 블레이드를 비틀거나 구부리지 않고 이송 속도를 일정하게 유지하면서 작업물을 부드럽게 돌립니다.
  • 모서리가 좁은 경우 톱을 멈추고 재료를 조심스럽게 꺼낸 다음 다른 각도에서 절단을 다시 시작해야 할 수도 있습니다.

6. 마무리

  • 절단이 완료되면 작업물을 제거하거나 조정하기 전에 날이 완전히 멈출 때까지 기다리십시오.
  • 띠톱을 끄고 전원에서 분리한 다음 잔해나 톱밥을 청소하십시오.

추가 팁

  • 최적의 성능을 보장하려면 블레이드 장력과 추적을 정기적으로 확인하고 조정하십시오.
  • 재료와 절단 유형에 맞는 칼날을 사용하십시오. 예를 들어, 금속과 플라스틱에는 가는 톱날을 사용하고 목재에는 거친 날을 사용하세요.
  • 띠톱을 처음 사용하는 경우 스크랩 재료에 대해 연습하여 이송 속도와 블레이드 동작에 대한 느낌을 얻으십시오.

다음 단계와 팁을 따르면 띠톱을 다양한 절단 작업에 안전하고 효과적으로 사용할 수 있습니다.

Choosing the right bandsaw involves considering several factors to ensure it meets your specific needs. Here’s a guide to help you make an informed decision:

1. Determine the Purpose
Woodworking: Look for bandsaws with finer blades for intricate cuts and the ability to handle various wood types and thicknesses.
Metalworking: Opt for a bandsaw designed for metal, which typically has slower speeds and may come with a coolant system.
General Use: If you need a bandsaw for a variety of materials, consider a variable-speed model that can be adjusted based on the material you’re cutting.
2. Size and Throat Capacity
Throat Capacity: This is the distance from the blade to the vertical frame section of the saw, determining the maximum width of the workpiece that can be cut. Choose a capacity that fits the largest pieces you plan to cut.
Depth of Cut: The maximum height a bandsaw can cut. Ensure the saw can accommodate the thickness of the materials you’ll be working with.
3. Motor Power
Light-duty Tasks: A less powerful motor (around 0.5 to 1 HP) may be sufficient for simple, small-scale projects or softer materials.
Heavy-duty Tasks: For cutting thick materials or continuous use, consider a bandsaw with a more powerful motor (1.5 HP or higher).
4. Blade Features
Blade Width: Determines the minimum radius of cuts. Narrower blades are better for intricate, curved cuts, while wider blades are ideal for straight cuts and resawing.
Blade Teeth Per Inch (TPI): Higher TPI blades make smoother cuts and are better for cutting thin materials, whereas lower TPI blades are faster and better for thick materials.
5. Additional Features
Table Size and Tilt: A larger table offers more support for bigger workpieces. Tilt capability allows for angled cuts.
Guide System: Ensures the blade tracks properly. Look for adjustable guides for ease of use and precision.
Dust Collection: Essential for keeping the work area clean and maintaining visibility.
Safety Features: Such as blade guards, emergency stop buttons, and lockout switches.
6. Budget and Brand
Price Range: Determine your budget beforehand, but remember that higher-quality saws may be more expensive.
Brand Reputation: Consider brands known for durability, reliability, and customer service. Reading reviews and seeking recommendations can be helpful.
7. Warranty and Support
Look for products with a solid warranty and accessible customer support for maintenance and repair inquiries.
Conclusion
The right bandsaw for you depends on the types of projects you undertake, the materials you work with, and the features that are most important to you. Assessing your needs and researching can lead to a purchase that enhances your ability to create and build with precision and efficiency.

띠톱은 재료를 절단하기 위해 두 개 이상의 바퀴로 구동되는 연속 루프 블레이드를 사용하여 작동합니다. 작동 메커니즘은 다음과 같습니다.

블레이드 및 휠: 한쪽 가장자리에 톱니가 있는 얇은 금속 스트립인 띠톱 블레이드는 두 개 이상의 바퀴 주위에 고리 모양으로 감겨 있습니다. 이 바퀴는 일반적으로 띠톱 프레임 내에서 수직으로 정렬되며, 한 바퀴는 작업대 위에 있고 다른 바퀴는 그 아래에 있습니다. 이 바퀴 중 적어도 하나는 모터로 구동되어 회전하여 블레이드를 연속 루프로 추진합니다.

동력원: 띠톱의 모터는 바퀴의 회전과 결과적으로 블레이드의 움직임에 동력을 공급합니다. 모터의 크기와 출력은 띠톱 모델에 따라 달라질 수 있으며, 띠톱이 클수록 더 두껍거나 단단한 재료를 절단하려면 더 강력한 모터가 필요합니다.

절단 동작: 블레이드는 띠톱의 전면에서 아래쪽 방향으로 이동하며, 여기서 절단할 재료는 띠톱의 테이블에 위치합니다. 이러한 방향 이동으로 인해 절단 중에 재료가 테이블에 단단히 고정되어 부정확하거나 재료가 움직일 가능성이 줄어듭니다.

조정 가능한 테이블 및 가이드: 절단을 위해 재료가 배치되는 띠톱 테이블은 일반적으로 다양한 각도로 정밀한 절단을 위해 다양한 각도로 조정될 수 있습니다. 테이블 위와 아래의 블레이드 가이드는 절단 중에 블레이드를 정렬하고 안정적으로 유지하여 정확하고 직선적인 절단을 보장합니다. 이 가이드는 절단되는 재료의 두께에 따라 조정될 수 있습니다.

가변 속도: 일부 띠톱에는 가변 속도 제어 기능이 있어 사용자가 절단되는 재료의 종류에 따라 날의 속도를 조정할 수 있습니다. 과열을 방지하기 위해 금속이나 플라스틱을 절단할 때는 느린 속도를 사용하는 반면 목재에는 더 빠른 속도를 사용할 수 있습니다.

절단하기: 절단을 하려면 사용자가 재료에 원하는 절단선을 표시하고 띠톱을 켠 다음 절단선을 따라 재료를 블레이드에 공급합니다. 띠톱은 직선 절단과 곡선 절단이 모두 가능하므로 다양한 유형의 프로젝트에 매우 다용도로 사용할 수 있습니다.

먼지 수집: 많은 띠톱에는 먼지 수집기나 진공 청소기를 부착할 수 있는 먼지 수집 포트가 장착되어 있습니다. 이는 톱밥을 관리하고 작업장을 깨끗하게 유지하는 데 도움이 됩니다.

띠톱은 재료를 통해 블레이드를 이동시키는 대신(휴대용 톱과 마찬가지로) 블레이드를 통해 재료를 이동함으로써 정확하고 복잡하며 반복적인 절단 작업에 이상적인 안정적이고 제어된 절단 환경을 제공합니다.

There are numerous bandsaw brands known for their quality, durability, and range of offerings, catering to both professional woodworkers and hobbyists alike. Here’s a list of some of the most recognized bandsaw brands:

Grizzly Industrial: Known for offering a wide range of durable and high-quality woodworking and metalworking machinery, including bandsaws for various applications.

Jet Tools: Offers a variety of power tools and machinery, including bandsaws with features that cater to both professional and amateur woodworkers.

Laguna Tools: Well-regarded for their high-performance woodworking and metalworking tools, Laguna bandsaws are often praised for their innovation and precision.

Delta Machinery: A historic brand known for its reliable woodworking tools, including bandsaws that cater to both professional shops and hobbyists.

DeWalt: While better known for portable power tools, DeWalt also offers portable bandsaws that are popular among professionals for their durability and performance.

WEN: Offers a range of affordable yet reliable power tools, including bandsaws that are great for hobbyists and those on a budget.

Rikon: Specializes in woodworking machinery, including bandsaws that are well-liked for their quality and innovative features.

Powermatic: Known for its high-quality, heavy-duty woodworking machinery, Powermatic bandsaws are aimed at professionals requiring precision and reliability.

Milwaukee: Renowned for their electric power tools, Milwaukee’s portable bandsaws are highly regarded in the construction and metalworking industries for their power and durability.

SawStop: While best known for their table saws with safety features, SawStop also offers bandsaws that incorporate high-quality construction and safety.

Makita: Offers portable bandsaws that are popular in the construction industry, known for their compact design and efficiency.

When choosing a bandsaw, it’s essential to consider the specific needs of your projects, including the size of material you’ll be cutting, the types of cuts you’ll be making (straight vs. intricate curves), and your budget. Different brands offer unique features, such as variable speed controls, different sizes (from benchtop to floor-standing models), and various safety features. Reading reviews, comparing specifications, and considering after-sales support can also help in making an informed decision.

The price of a bandsaw can vary widely based on several factors, including the brand, size, power, features, and whether it’s designed for hobbyist or industrial use. Here’s a general price range to give you an idea:

Entry-Level or Benchtop Bandsaws: These are smaller, more compact bandsaws suitable for hobbyists or light-duty work. Prices can range from around $200 to $500. They are great for small projects and can handle a variety of materials with moderate precision.

Mid-Range Bandsaws: These models offer more power, larger cutting capacities, and additional features like better blade guides and more substantial tables. Prices for mid-range bandsaws can range from $500 to $1,500. They cater to serious hobbyists and semi-professional woodworkers.

Professional or Industrial Bandsaws: Designed for heavy-duty use, these bandsaws have large capacities, powerful motors, and durable construction. They often include advanced features like variable speeds, larger tables, and sophisticated dust collection systems. Prices for professional bandsaws can start from around $1,500 and go up to $5,000 or more, depending on the specifications and features.

Specialized Bandsaws: Some bandsaws are designed for specific tasks, such as metalworking, meat cutting, or resawing. These can vary in price depending on their specialization and range from $500 to several thousand dollars.

The actual cost will depend on your specific needs, such as the type of materials you plan to cut, the size of material, the precision required, and how frequently you’ll use the machine. It’s also worth noting that prices can vary based on where you purchase the bandsaw, any ongoing sales or discounts, and additional costs like shipping or extended warranties. Always consider checking multiple retailers and reviews to find the best deal for your requirements.

Replacing a bandsaw blade involves several steps to ensure safety and accuracy in the setup for your next cutting task. Here’s a step-by-step guide on how to do it:

Safety First
Disconnect the Power: Ensure the bandsaw is unplugged or disconnected from its power source to prevent accidental startup.
Wear Protective Gear: Use safety glasses and gloves to protect your eyes and hands from sharp edges.
Removing the Old Blade
Open the Bandsaw: Open the wheel covers to access the blade.
Relieve Blade Tension: Locate the tension adjustment knob or lever, usually at the top of the bandsaw, and reduce the tension by turning it until the blade is loose. Some models may have a quick-release tension mechanism.
Remove Blade Guides: Loosen and move the blade guides and thrust bearings away from the blade. These are located above and below the table near the blade. This step is crucial for removing the blade without obstruction.
Detach the Blade: Carefully remove the blade from the wheels. You might need to twist the blade slightly to navigate it out of the bandsaw’s throat plate area.
Installing the New Blade
Choose the Right Blade: Select a blade with the appropriate width, tooth pattern, and material for your cutting needs.
Thread the Blade: Carefully thread the new blade around the wheels and through the guides and thrust bearings. Ensure the teeth are pointing in the right direction (downwards and towards the front of the bandsaw).
Adjust Blade Tension: Once the blade is in place, adjust the tension knob or lever to tighten the blade. Follow the manufacturer’s recommendations for the correct tension. Too little tension can cause the blade to wander or come off the wheels; too much tension can lead to premature blade or equipment failure.
Align the Blade: Adjust the blade so that it sits centered on the wheels. Use the tracking adjustment knob, usually located at the back of the upper wheel, to fine-tune the blade’s position while turning the wheel by hand.
Set Blade Guides and Thrust Bearings: Re-adjust the blade guides and thrust bearings so they are close to, but not touching, the blade. This is crucial for accurate cuts and to prevent the blade from deflecting.
Check Everything: Before closing the wheel covers, make a final check to ensure everything is correctly set up. The blade should be properly tensioned, centered, and the guides should be correctly adjusted.
Final Steps
Test the Bandsaw: After reassembling, plug in the bandsaw and turn it on briefly to ensure the blade runs smoothly and stays on the wheels. Listen for any unusual noises or vibrations that might indicate improper installation.
Make a Test Cut: After confirming the blade runs correctly, make a test cut on a piece of scrap material to ensure the setup is correct and the cut quality meets your expectations.
Always refer to your bandsaw’s manual for specific instructions related to your model. Manufacturers might have unique features or steps that are important for the safe and effective operation of your specific bandsaw.


Choosing the right size bandsaw depends on several factors, including the type of projects you plan to undertake, the materials you’ll be cutting, and the space available in your workshop. Here are some guidelines to help you decide:

Throat Capacity
The throat capacity or throat depth of a bandsaw is the distance from the blade to the vertical frame section of the saw body. It determines the maximum width of material that you can cut.
For light-duty tasks, hobbyist projects, or if you’re working with smaller pieces of material, a bandsaw with a throat capacity of 12 to 14 inches might suffice.
For larger projects or if you plan to cut wider materials, look for a bandsaw with a throat capacity of 18 inches or more.
Resaw Capacity
Resaw capacity is the maximum height of material the bandsaw can cut. It’s important if you plan to slice thicker pieces of wood into thinner boards.
A larger resaw capacity is beneficial for tasks such as resawing lumber into thinner slabs or bookmatching. Bandsaws with a resaw capacity of 12 inches or more are ideal for these types of tasks.
Motor Power
Motor power is crucial, especially if you’re cutting through dense materials or require continuous use.
Light to medium projects typically require a motor power of 0.5 to 1.5 horsepower (HP).
For more demanding tasks, such as cutting through metal or hardwoods, or for industrial use, consider a bandsaw with a motor that has 2 HP or more.
Table Size and Features
The size of the bandsaw table is also an important consideration, as it supports the material during cutting. A larger table provides better support for bigger workpieces.
Some tables offer tilt capabilities, which are useful for making angled cuts. Consider a bandsaw with a table that tilts up to 45 degrees if you anticipate needing angled cuts.
Floor Standing vs. Benchtop
Floor standing bandsaws are larger, offer greater capacity and power, and are suited for professional or heavy-duty use. They’re the go-to choice for serious woodworkers or industrial applications.
Benchtop bandsaws are more compact and can be placed on a workbench. They’re suitable for hobbyists or those with limited space.
Consider Your Projects
For general woodworking tasks, a bandsaw with a 14-inch throat capacity and a 6 to 12-inch resaw capacity is a good start.
For cutting metal, look for a bandsaw specifically designed for metalworking, which often includes features like variable speed controls and a more robust construction.
For intricate scroll work or smaller pieces, a smaller benchtop model might be sufficient.
Space and Budget
Consider the amount of space you have available. Larger, floor-standing models require more room but offer greater capabilities.
Budget is also a key factor. Bandsaws can range from a few hundred to several thousand dollars. Balancing your needs with how much you’re willing to invest is crucial.
Ultimately, the “right” size bandsaw is one that fits your specific needs, the space you have available, and your budget. It’s worth considering future projects as well; a slightly larger and more capable bandsaw can provide more versatility and room to grow as your skills and projects evolve.

Adjusting a bandsaw correctly is crucial for optimal performance, accurate cuts, and safety. Here’s a comprehensive guide on how to adjust various components of your bandsaw:

1. Blade Tension
Correct tension is essential for precise cuts. Most bandsaws have a tension gauge, but they’re not always accurate. A general rule is to tighten the blade until it’s firm and doesn’t deflect more than about 1/4 inch when you push on it with moderate pressure.
For saws without a gauge, refer to the manual for specific recommendations on tension settings based on blade width.
2. Blade Tracking
Blade tracking refers to the alignment of the blade on the wheels. With the bandsaw unplugged, open the top wheel cover, and turn the wheel by hand. Adjust the tracking knob until the blade runs centered on the wheel’s crown. The blade should not drift toward the front or back of the wheel.
3. Blade Guides
Blade guides support the blade near the cut point. Adjust the side guides and the thrust bearing behind the blade so they are close to, but not touching, the blade. They should support the blade during a cut without hindering its movement.
4. Table Alignment
Square the table to the blade using a square. Loosen the table tilt adjustment, and adjust until the blade is perpendicular to the table. Tighten the adjustment to secure the table in place.
5. Fence Alignment
If your bandsaw has a fence, ensure it’s parallel to the blade’s path. This can usually be adjusted by loosening the fence mount and aligning the fence with the miter slot or another fixed point on the table.
6. Guide Post Height
Adjust the guide post height so the guides are just above the material being cut. This minimizes blade exposure and vibration for safer and more accurate cuts.
7. Checking for Square Cuts
After making these adjustments, test the saw by cutting a piece of wood. Check the cut for squareness and adjust the table tilt or guide settings if necessary.
Safety and Maintenance Tips
Always unplug the bandsaw before making adjustments.
Regularly check blade sharpness and replace dull blades to ensure clean cuts and reduce strain on the bandsaw.
Keep the bandsaw clean, including the wheels, guides, and table. Accumulated sawdust can affect performance and accuracy.
Lubricate moving parts as recommended by your bandsaw’s manual to keep them operating smoothly.
Adjusting a bandsaw is a continuous process. Wood species, humidity, and wear can affect its performance, so it’s a good practice to check these settings regularly and especially before starting a new project or after changing the blade. Always refer to your bandsaw’s manual for specific instructions and safety information.

Building a bandsaw from scratch is an ambitious project that appeals to experienced woodworkers and metalworkers with a good understanding of machinery and a well-equipped workshop. It involves fabricating or sourcing various components, including the frame, wheels, blade, motor, and guides, and then assembling them into a functioning tool. Here’s a simplified overview of the steps involved in building a basic bandsaw:

Design and Planning
Determine the Size: Decide on the size of the bandsaw based on the maximum width (throat capacity) and height (resaw capacity) of the material you plan to cut. This will influence the size of the wheels and the frame.
Draw Detailed Plans: Create or obtain detailed plans that include dimensions for all components. Plans can be found in woodworking books, magazines, or online resources.
Frame Construction
Material Selection: The frame can be made from metal (for durability and stability) or wood (easier to work with for DIY projects). Steel is a common choice for metal frames.
Fabrication: Cut and weld (for metal) or cut and join (for wood) the frame components according to your design. The frame must be sturdy and accurately aligned to ensure smooth operation.
Wheels and Blade
Wheels: You can fabricate wheels from wood or metal, or repurpose wheels from another machine. Wheels must be perfectly round and balanced for the bandsaw to operate smoothly.
Tires: Bandsaw wheels are typically fitted with rubber or urethane tires to provide grip and reduce blade wear. These can be purchased or made to fit your wheels.
Blade: Purchase a bandsaw blade that fits the size of your bandsaw and is suitable for the type of cutting you plan to do.
Motor and Drive System
Motor Selection: Choose a motor with sufficient power for your needs. A common choice is a 1 to 2 HP motor for a medium-sized bandsaw.
Drive System: Design a system to transfer power from the motor to the lower wheel. This usually involves pulleys and a belt.
Guides and Table
Blade Guides: Fabricate or purchase blade guides to keep the blade aligned during cutting. Guides are critical for accurate cuts and can be made from metal or high-wear-resistant plastics.
Table: Build a table with a slot for the blade. The table should be flat and sturdy, and it can be made adjustable for angle cuts.
Assembly and Adjustment
Assemble Components: Assemble the frame, wheels, motor, and table. Install the blade and adjust the tension and tracking.
Adjust Blade Guides: Set the blade guides and thrust bearings close to the blade without touching it.
Test and Fine-Tune: Power up the bandsaw, make test cuts, and adjust as necessary to ensure smooth operation and accurate cuts.
Safety and Finishing Touches
Safety Features: Install necessary safety features, including blade guards, a power switch, and possibly a dust collection port.
Finishing: Apply finish or paint to protect the bandsaw, especially if it’s made of wood or susceptible to corrosion.
Building a bandsaw requires a significant investment of time, resources, and a deep understanding of machinery. It’s a rewarding project for those looking for a challenge and a customized tool. If you’re new to such projects, consider starting with simpler machinery builds or working under the guidance of an experienced mentor.