型抜き機は何に使うのですか?
ブログ 2024-10-31 20:54:58 106
Die Cutting: A Comprehensive Guide for Beginners
Die-cutting is a versatile technique that has been transforming our creative and production processes for centuries. It has become an indispensable tool in both manual arts and industry. In this blog post, we’ll dive deep into the world of die cutting, exploring its origins, applications, and the technologies that make it possible. Whether you’re a seasoned craftsman or a business owner looking to streamline production, this guide will provide you with comprehensive knowledge.
型抜きとは?
Die cutting is a process that uses machines to mass produce cut shapes with precision and consistency. In die cutting, material is placed under a die and pressure is applied by a machine to cut the desired shape by allowing the sharp edges of the die to penetrate the material. This method eliminates the need for manual cutting with scissors, templates or hand knives, saving time and ensuring a professional look every time. Not only does it increase productivity, but it also ensures a consistent and accurate product.
The Evolution of Die Cutting
- Initial Application Phase:
Die cutting technology was first applied in the shoemaking industry in the mid-19th century, primarily for cutting leather. - Miniaturization and Automation Phase:
In the 1950s, the emergence of smaller machines further reduced the cost and barriers to die cutting. With the development of automation technology, die cutting began to transition towards automated production, enhancing production efficiency and consistency. - Digital Design and Manufacturing Phase:
Since the early 21st century, the introduction of computers and CAD technology has revolutionized the die cutting process. Digital workflows can increase production efficiency, reduce errors, and shorten delivery times. - Intelligent and High Precision Production Phase:
With the application of technologies such as the Internet, big data analysis, and artificial intelligence, the die cutting industry has begun to transform towards intelligent manufacturing, achieving monitoring and optimization of production equipment and workflows. At the same time, as the market demands higher precision and diversity in products, die cutting technology continues to evolve, adopting high-precision die-cutting equipment and multifunctional die cutting processes to meet a wider range of customer needs.
Die Cutting Machines: Types and Characteristics
- Classification by Equipment Type:
Manual Die Cutting Machines: Dependent on manual operation, suitable for small batch, multi-variety production scenarios, with high flexibility but relatively low efficiency.
Automatic Die Cutting Machines: Achieve die cutting through automated equipment, suitable for large batch, high efficiency production, significantly improving production efficiency and reducing costs. - Classification by Processing Materials:
Paper Die Cutting: Primarily for die cutting paper, cardboard, and other paper materials, widely used in packaging, printing, and other industries.
Non-Paper Die Cutting: Targets non-paper materials such as adhesives, foam, and mesh, which are extensively used in electronics, automotive, medical, and other fields. - Classification by Processing Methods:
1.Forming Knife Process: Directly uses forming knives to die cut products into the desired shape, the most common die cutting method.
2.Flat Knife Process: Uses flat knives for die cutting, suitable for simple geometric shapes.
3.Rotary Knife Process: Utilizes circular knives for rolling die cutting, suitable for continuous production or processing complex shapes.
4.Step and Repeat Knife Process: Breaks down strip frame products into cross and vertical knives, processing step by step to form the product, suitable for products that require precise control of the cutting path.
5.Strip Cutting Process: First cuts the material into the required number of strips with a cross cutting knife, then rotates the product for die-cutting and waste removal, suitable for processing long strip or ribbon materials.
6.Roller Die Process: Uses a roller die to cut materials while rolling, suitable for large area, continuous die cutting needs. - Classification by the Number of Knives Used:
Single Knife Process: Mainly used for simple product processing, with the advantages of high efficiency and precision. Suitable for products with consistent single or multi layer material structure, without internal frames or that can be cut through for waste removal.
Double Knife Process: Used for products that cannot be completed with a single knife process, suitable for slightly more complex products that require multiple cuts or special treatment scenarios. - Special Processes:
Laser Process: Uses laser beams for high-precision, non-contact die cutting, suitable for products with high surface quality requirements.
Engraving Process: Processes molds or knives into the desired shape through engraving technology, then performs die cutting, suitable for processing complex shapes and patterns.
Selecting the right die cutting machine
Selecting the right die cutting machine requires consideration of several factors, first of all, to clarify their production needs, the performance parameters of the machine, the type, size and thickness of the processed material, as well as the required processing accuracy, production efficiency and so on.
- Cutting Accuracy:
The cutting accuracy of the die cutting machine directly affects the final quality of the product. Selection should focus on the machine’s cutting accuracy, repeat positioning accuracy and other parameters. - Cutting Speed:
under the premise of ensuring accuracy, cutting speed is also an important indicator of the performance of the die cutting machine. An efficient die cutting machine can significantly improve productivity. - Degree Of Automation:
With the development of intelligent manufacturing, die cutting machines with an increasing degree of automation are welcomed by the market. Automatic loading, automatic adjustment, automatic inspection and other functions can reduce manual intervention, greatly improving production efficiency.
What is the cost of die cutting?
- Purchase Cost:
Although price is not the deciding factor, it is very important to choose the most cost-effective machine within the budget. Avoid blindly pursuing a low or high price, and instead consider performance, quality, service and other factors. - Operating Costs:
In addition to the purchase cost, you should also consider the operating costs of the die-cutting machine, including energy consumption, maintenance costs, consumable costs and so on. Choosing a machine with low energy consumption, easy maintenance and low cost of consumables can reduce long-term operating costs. - Return on Investment:
Evaluate the return on investment in die-cutting machines, including improved productivity, product quality, market competitiveness and other aspects. Ensure that the selected machine can create greater value for the enterprise. - Consult with professionals:
During the purchase process, it is essential to consult with industry professionals or experienced users. They can provide targeted advice and recommendations according to your specific needs and actual situation. At the same time, you can also participate in relevant exhibitions or forums to understand the new industry trends and technology trends.
Die Cutting Molds: The Heart of Die Cutting Technology
Molds are not only the core of die-cutting technology but also a key factor in improving production efficiency, reducing costs, meeting personalized needs, and driving product innovation. They are the essential tools for achieving precise and efficient material cutting.
- Precise Cutting and Trimming: Molds ensure that materials are cut precisely into the desired shapes and sizes. This level of precision is unmatched by manual cutting, enhancing production efficiency and reducing labor costs.
- Wide Range of Applications: Molds are suitable for a variety of materials, including paper, plastics, fabrics, and adhesive tapes, among others.
- Improving Product Quality and Efficiency: Through cutting and creasing processes with molds, die-cutting machines can quickly trim raw materials into the required shapes, meeting exact size specifications, thereby improving product quality and production efficiency.
- Personalization and Innovative Design: The flexible switching and precise design of molds enable die-cutting technology to achieve personalized customization of products, satisfying the market’s demand for personalized and differentiated products.
Mold Types and Applications
- Stamping Dies:
Used for separating, forming, or combining metal or non-metal sheet materials or profiles into products and parts under pressure. This category includes blanking dies, drawing dies, bending dies, progressive dies, fine blanking dies, and trimming dies, among others. - Plastic Molds:
These molds allow molten plastic materials to fill the cavity under pressure and solidify into products and parts. They include injection molds, compression molds, transfer molds, extrusion molds, blow molding molds, thermoforming molds, and foaming molds - Die Casting Molds:
Molds that allow liquid metal to quickly fill the cavity under pressure and solidify into parts - Forging Dies:
Molds that shape metal blanks into blanks or parts under pressure. This category includes hammer forging dies, mechanical press forging dies, screw press forging dies, hydraulic press forging dies, and flat forging dies - Powder Metallurgy Molds:
Molds that form metal or non-metal powders into blanks or parts through powder metallurgy processes. They include compaction molds, isostatic pressing molds, injection molds, extrusion molds, and sizing molds - Drawing Dies:
Molds that extend and deform metal blanks into rods, wires, filaments, profiles, parts, and other products and parts under tensile force through a cross-hole. They include steel drawing dies, hard alloy drawing dies, diamond drawing dies, diamond-coated drawing dies, and ceramic drawing dies - Extrusion Molds:
Molds that cause metal blanks to undergo plastic deformation under extrusion pressure to form profiles or products and parts. They include backward extrusion molds, forward extrusion molds, combined forward and backward extrusion molds, radial extrusion molds, and forging compound molds - Roller Dies:
Roller-shaped molds that separate, form, compound, correct, join, or transfer metal or non-metal sheets, profiles, and bars into products and parts under rotating pressure. They include roll stamping dies and roll bending dies - Glass Molds:
Molds that form glass materials into products and parts. They include bottle and jar molds, vessel molds, thermoforming molds, drawing molds, pressing molds, blowing molds, centrifugal molds, and rolling molds - Rubber Molds:
Molds that form rubber materials into products and parts. They include vulcanized rubber molds, thermoplastic rubber molds, liquid rubber molds, latex molds, compression molds, injection molds, extrusion molds, tire molds, and tire forming drum molds - Ceramic Molds:
Molds that form ceramic materials into blanks or products. They include plastic forming molds, roll forming molds, extrusion molding molds, slip casting molds, pressing molds, and isostatic pressing molds - Casting Molds:
Molds that form liquid metal into parts or castings. They include metal casting molds, wooden pattern casting molds, sand casting molds, sand core casting molds, and wax pattern casting mold
Where can I buy a die cutting machine?
If you are looking for a place to buy die cutting machine, you can usually buy it online. Or contact us, We Wentong Machinery, mainly distribute card cutting machine, playing card die cutting machine, credit card making machine, PVC card cutting machine, ID card cutting machine, card packing machine, children’s book die cutting machine, automatic strapping machine and ultrasonic spot welding machine. We offer a full range of manufacturing, supply, design, development and sales services. We have over 300 customers worldwide.