CNC Induction Hardening Machine for case hardening shafts, gears and pins
Description
An Induction Hardening Machine is a piece of industrial equipment used to harden metal parts. The process involves heating the metal using an electromagnetic field and then quenching it with water or oil. This results in a surface layer that is harder than the rest of the part, which can improve its durability and performance. Induction hardening machines can be used on a variety of metal parts, including gears, shafts, and bearings. They’re commonly used in automotive and aerospace industries, as well as in the manufacturing of industrial machinery and equipment. If you’re in need of an induction hardening machine, there are many reputable manufacturers and suppliers that can help you find the right equipment for your needs.
The Ultimate Guide to Roller Shaft Induction Hardening Machine
Roller shaft induction hardening machine is an essential tool in the manufacturing industry that is used to harden roller shafts. The process of induction hardening is the most efficient way to strengthen the surface of metal parts, including roller shafts. It provides improved wear resistance, durability, and better performance of the finished product. 
If you are in the manufacturing business, you need to understand how to use this machine to improve the quality of your products. In this article, we will provide you with an ultimate guide to roller shaft induction hardening machines. We will go over everything you need to know about the machine, how it works, its benefits, and how to maintain it so that it lasts longer. Let’s dive in and learn more about this powerful tool.
1. What is a Roller Shaft Induction Hardening Machine?
A roller shaft induction hardening machine is a piece of industrial equipment that is specifically designed to harden the surface of roller shafts. Induction hardening is a process that uses an electromagnetic field to heat the surface of a material, typically steel, to a very high temperature. This heat treatment process is used to create a hard, wear-resistant surface on the material. A roller shaft induction hardening machine does this by using an induction coil to produce a high frequency electromagnetic field that rapidly heats the surface of the roller shaft. The heat generated by the electromagnetic field causes the surface of the roller shaft to reach a high temperature, which in turn causes the surface to harden. This process is often used in the manufacturing of roller shafts that are used in a variety of industrial applications, such as in conveyor systems or printing presses. A roller shaft induction hardening machine is an essential tool for many industrial manufacturers who require strong and durable roller shafts for their machinery.
2. How Does Roller Shaft Induction Hardening Machine Work?
The roller shaft induction hardening machine is an innovative technology that is used to produce high-quality roller shafts. This machine uses an induction heating process that heats the surface of the roller shaft to a high temperature, hardening the surface of the material while leaving the core of the roller shaft untouched. This process is known as induction hardening, and it is a popular method for producing durable and long-lasting roller shafts. The roller shaft induction hardening machine works by using an electromagnetic field to generate heat, which is applied to the surface of the roller shaft. 
The heat generated causes the surface of the roller shaft to reach a specific temperature, which then hardens the material. This process is achieved through a combination of the electromagnetic field and the material’s properties, which allows for precise control over the heating process. The roller shaft induction hardening machine is an efficient and cost-effective way to produce high-quality roller shafts. It is widely used in the manufacturing industry, particularly in the production of conveyor belts, printing presses, and other industrial equipment that requires durable and reliable roller shafts. With the ability to produce roller shafts that can withstand heavy loads and harsh environments, the roller shaft induction hardening machine is a valuable asset for any manufacturing company looking to produce high-quality products.
3. Benefits of Using Roller Shaft Induction Hardening Machine
Roller shaft induction hardening machines have become increasingly popular due to their many benefits. One of the most notable benefits is that they provide a quick and efficient hardening process for roller shafts. With this technology, roller shafts can be hardened in a matter of seconds, which greatly reduces production time and increases efficiency. Additionally, the machines are very versatile and can accommodate a variety of roller shaft sizes. This means that businesses can adapt and customize their production processes to meet their specific needs. Another benefit of using a roller shaft induction hardening machine is that it provides a uniform hardening pattern across the entire roller shaft surface. This ensures that the quality of the hardened surface is consistent and reliable throughout the entire production process. Additionally, the process of induction hardening is environmentally friendly, as it only requires a minimal amount of energy to operate. It also produces less waste and pollution compared to other traditional hardening processes. Furthermore, using a roller shaft induction hardening machine can also help to extend the lifespan of the roller shafts, reducing the need for frequent repairs and replacements. This ultimately saves businesses money and increases their overall productivity. Finally, the machine provides a safe and reliable hardening process, with minimal risk of injury to operators. Overall, the benefits of using a roller shaft induction hardening machine make it a valuable investment for businesses looking to improve their production processes and reduce their environmental impact.
4. How to Maintain Your Roller Shaft Induction Hardening Machine?
Maintaining your roller shaft induction hardening machine is crucial to ensure its longevity and continued performance.
Here are some tips to keep your machine running smoothly:
1. Regular cleaning: Dust and debris can accumulate on your machine, which can cause damage over time. It’s essential to clean your machine regularly to prevent any build-up. Use a soft cloth to wipe down the machine and remove any dirt or debris.
2. Lubrication: Proper lubrication is essential to keep your machine functioning correctly. Make sure to use the recommended lubricant and apply it regularly to the appropriate parts of the machine.
3. Regular inspection: Inspecting your machine regularly can help you identify any potential issues before they become bigger problems. Look for signs of wear and tear, such as cracks or deformation in the rollers.
4. Proper storage: When not in use, it’s essential to store your machine properly. Keep it in a dry, cool place that is free from any exposure to moisture or extreme temperatures.
5. Professional maintenance: While regular cleaning and inspection can help prevent issues, it’s also crucial to have your machine professionally serviced regularly.
A professional technician can identify any potential problems and provide the necessary repairs and maintenance to keep your machine running smoothly. By following these tips, you can ensure that your roller shaft induction hardening machine remains in top condition, providing you with reliable and efficient performance for years to come.
Hardening Machine Tools-Quenching Machine Tools
According to the different of workpiece, there are vertical type, horizontal typeļ¼closed type, customized type, etc.
1.Standard SK-500/1000/1200/1500 workpiece moving type For shafts, discs, pins and gears hardening
2.SK-2000/2500/3000/4000 Transformer moving type , Used for heating length more than 1500mm shaft
3.Closed type : Customized for big shaft ,More clean work environment.
4.Horizontal hardening machine tool
SK-500/1000/1200/1500/2000/2500/3000/4000Ā Used for smooth shaft
5.Customized type
Technical Parameter
| Model | SK-500 | SK-1000 | SK-1200 | SK-1500 |
| Max heating lengthļ¼mmļ¼ | 500 | 1000 | 1200 | 1500 |
| Max heating diameterļ¼mmļ¼ | 500 | 500 | 600 | 600 |
| Max holding lengthļ¼mmļ¼ | 600 | 1100 | 1300 | 1600 |
| Max weight of workpieceļ¼Kgļ¼ | 100 | 100 | 100 | 100 |
| Workpiece rotation speedļ¼r/minļ¼ | 0-300 | 0-300 | 0-300 | 0-300 |
| workpiece moving speedļ¼mm/minļ¼ | 6-3000 | 6-3000 | 6-3000 | 6-3000 |
| Cooling method | Hydrojet cooling | Hydrojet cooling | Hydrojet cooling | Hydrojet cooling |
| Input voltage | 3P 380V 50Hz | 3P 380V 50Hz | 3P 380V 50Hz | 3P 380V 50Hz |
| Motor power | 1.1KW | 1.1KW | 1.2KW | 1.5KW |
| Dimension LxWxH (mm) | 1600 x800 x2000 | 1600 x800 x2400 | 1900 x900 x2900 | 1900 x900 x3200 |
| weightļ¼Kgļ¼ | 800 | 900 | 1100 | 1200 |
| Model | SK-2000 | SK-2500 | SK-3000 | SK-4000 |
| Max heating lengthļ¼mmļ¼ | 2000 | 2500 | 3000 | 4000 |
| Max heating diameterļ¼mmļ¼ | 600 | 600 | 600 | 600 |
| Max holding lengthļ¼mmļ¼ | 2000 | 2500 | 3000 | 4000 |
| Max weight of workpieceļ¼Kgļ¼ | 800 | 1000 | 1200 | 1500 |
| workpiece rotation speedļ¼r/minļ¼ | 0-300 | 0-300 | 0-300 | 0-300 |
| workpiece moving speedļ¼mm/minļ¼ | 6-3000 | 6-3000 | 6-3000 | 6-3000 |
| Cooling method | Hydrojet cooling | Hydrojet cooling | Hydrojet cooling | Hydrojet cooling |
| Input voltage | 3P 380V 50Hz | 3P 380V 50Hz | 3P 380V 50Hz | 3P 380V 50Hz |
| Motor power | 2KW | 2.2KW | 2.5KW | 3KW |
| Dimension LxWxH (mm) | 1900 x900 x2400 | 1900 x900 x2900 | 1900 x900 x3400 | 1900 x900 x4300 |
| weightļ¼Kgļ¼ | 1200 | 1300 | 1400 | 1500 |
Induction Heating System for Hardening Surface Process
Specifications
| Models | Rated output power | Frequency rage | Input current | Input voltage | Duty cycle | Water flow | weight | Dimension |
| MFS-100 | 100KW | 0.5-10KHz | 160A | 3phase 380V 50Hz | 100% | 10-20mĀ³/h | 175KG | 800x650x1800mm |
| MFS-160 | 160KW | 0.5-10KHz | 250A | 10-20mĀ³/h | 180KG | 800x 650 x 1800mm | ||
| MFS-200 | 200KW | 0.5-10KHz | 310A | 10-20mĀ³/h | 180KG | 800x 650 x 1800mm | ||
| MFS-250 | 250KW | 0.5-10KHz | 380A | 10-20mĀ³/h | 192KG | 800x 650 x 1800mm | ||
| MFS-300 | 300KW | 0.5-8KHz | 460A | 25-35mĀ³/h | 198KG | 800x 650 x 1800mm | ||
| MFS-400 | 400KW | 0.5-8KHz | 610A | 25-35mĀ³/h | 225KG | 800x 650 x 1800mm | ||
| MFS-500 | 500KW | 0.5-8KHz | 760A | 25-35mĀ³/h | 350KG | 1500 x 800 x 2000mm | ||
| MFS-600 | 600KW | 0.5-8KHz | 920A | 25-35mĀ³/h | 360KG | 1500 x 800 x 2000mm | ||
| MFS-750 | 750KW | 0.5-6KHz | 1150A | 50-60mĀ³/h | 380KG | 1500 x 800 x 2000mm | ||
| MFS-800 | 800KW | 0.5-6KHz | 1300A | 50-60mĀ³/h | 390KG | 1500 x 800 x 2000mm |
Applications of Roller Shaft Induction Hardening Machines:
Roller shaft induction hardening machines are used in various industrial applications, including:
1. Steel mills: Roller shafts are used in steel mills to transport steel coils. Induction hardening increases the lifespan of these shafts, reducing the need for frequent replacements.
2. Paper mills: Roller shafts are used in paper mills to transport paper rolls. Induction hardening increases the lifespan of these shafts, reducing the need for frequent replacements.
3. Printing presses: Roller shafts are used in printing presses to transport paper. Induction hardening increases the lifespan of these shafts, reducing the need for frequent replacements.
4. Automotive industry: Roller shafts are used in various automotive applications, including engine components and transmission systems. Induction hardening increases the lifespan of these shafts, reducing the need for frequent replacements.
Conclusion:
An induction hardening machine is a specialized equipment used in the manufacturing industry for hardening metal parts. It utilizes induction heating technology to heat the surface of a metal part to a high temperature before quickly cooling it off. This process enhances the surface hardness of the metal, making it more durable and resistant to wear and tear. Induction hardening machines come in different sizes, shapes, and power outputs, depending on the specific needs of the application. They can also be customized to suit the unique requirements of a particular manufacturing process.
