What are Milling Machines? Understanding Types and Manufacturers
  • 最終更新日:2024年2月21日
A milling machine is like the Swiss Army knife of the manufacturing world – versatile and indispensable. Its role has become even more crucial as manufacturing techniques have evolved over the years.

There are a wide variety of types, features, and processing examples of milling machines. With so many types, features, and examples out there, making the wrong choice can seriously affect the quality and efficiency of your work. In addition, when introducing new machinery, care must be taken as the selection can have a significant impact on costs and work efficiency if it is not tailored to the issues and needs of the factory.

In this article, we will introduce what a milling machine is, the types of milling machines, recommended manufacturers, specific processing examples, and highlight six standout companies worth checking out.

What is a milling machine? Features and 8 types of milling machines

Milling Machine Overview

A milling machine is a machine that rotates a tool called a milling tool to process flat surfaces, curved surfaces, grooves, etc.

There are a wide variety of milling tools, such as face mills, end mills, and groove mills, and each tool specializes in different types of milling.
(Source: “Japan’s Machine Tool Industry 2023 – Industry that supports the world’s manufacturing” Japan Machine Tool Builders Association, General Incorporated Association)

A milling machine is a mechanical device widely used for processing materials such as metal, plastic, and wood. There are many types of milling machines, each designed for a specific processing purpose or application. There are nine specific types of milling machines:



NC milling machine

NC milling machines are milling machines that can be numerically controlled and can achieve high-precision machining. It is especially used in the manufacturing of products such as aircraft parts, automobile parts, and high-precision molds.

The greatest strength of this milling machine is that it enables high-precision processing and the ability to process complex shapes. It is suitable for mass production and is good at processing various materials such as aluminum, steel, titanium, alloy steel, plastic, and wood. We can process medium to large parts, ranging from several mm to several meters in size.

For example, Makino Milling Seisakusho Co., Ltd. is a well-known manufacturer.

Bed type milling machine (Vertical)

A bed-type milling machine (vertical) is characterized by a fixed spindle box and a structure in which the table moves on the XYZ axes. This property makes it excellent for machining general machine parts, frame parts, and especially large parts.

The biggest strength of this milling machine is that it is capable of machining large parts and has high stability during machining.
It is also very suitable for general machining. We are good at machining various materials such as aluminum, steel, and cast iron, and can process medium to large parts ranging from a few centimeters to more than 1 meter in size.

Takeda Machinery is an example of a bed type milling machine manufacturer.

Knee Type milling machine

As the name suggests, a knee-type milling machine is a milling machine characterized by a spindle box that moves on the Z-axis. This property makes it suitable for machining small parts, tools, and even prototype parts.

The biggest strength of this milling machine is that it is good at machining small parts, is easy to operate, and has multifunctionality. It is possible to process various materials such as aluminum, brass, and steel, and the processing size ranges from small to medium-sized parts, from a few mm to several tens of cm. We can handle the following.

Iwashita is a well-known manufacturer for this type of knee type milling machine.

Universal tool milling machine

As the name suggests, a universal tool milling machine is a milling machine that has a table that operates in multiple directions and can handle a variety of shapes and processing methods. It is possible to process parts with complex shapes, special parts, and even molds for a wide variety of purposes.

The biggest strength of this milling machine is that it is good at complex machining, and combines versatility and high flexibility. It is possible to process a variety of materials such as aluminum, steel, cast iron, and non-ferrous metals, and can process small to medium-sized parts ranging from a few mm to several tens of cm.

Known manufacturers that excel at making universal tool milling machines include Makino Milling Co., Ltd., Takeda Kikai Co., Ltd., and Iwashita Co., Ltd.

Profiling milling machine

A profile milling machine is a machine that has two or more spindles in parallel. This property allows items such as large quantities of identical parts, chained parts, or even production line parts to be efficiently processed at once.

The greatest strength of this milling machine is that it is capable of mass production and continuous processing. Furthermore, simultaneous multi-axis machining is also possible, allowing multiple parts to be machined at once.

It is possible to process various materials such as aluminum, steel, and cast iron, and it is possible to process medium to large parts in the range of several centimeters to one meter.

Plano mirror

Plano Mirror is a milling machine that specializes in large flat parts. This provides high precision and stability when machining parts with large dimensions, such as machine beds, large frames, and the foundations of industrial machines. It becomes possible to process the material by holding it.

The strength of this milling machine is its precision and stability when machining large parts. It is said to be particularly good at machining large parts over 1 m in length from materials such as cast iron and steel.

Nissei Honma Machinery is a well-known manufacturer and is trusted in many industrial fields for its technical capabilities and quality.

Thread milling machine

As the name suggests, a thread milling machine is a milling machine that specializes in machining threads. It is used to make bolts, industrial screws, and even screws with special shapes.

The greatest strength of this milling machine is its ability to process screws with high precision. Its capabilities are particularly demonstrated when machining special thread shapes and continuous thread machining. We specialize in materials such as steel, aluminum, and alloy steel, and are capable of processing small to medium-sized parts, and parts ranging from a few mm to several tens of cm.

As a manufacturer, Kashifuji Co., Ltd. is trusted in many industrial fields for its technical capabilities and quality.

Tabletop milling machine

As the name suggests, a desktop milling machine is a small milling machine that can be installed on a desktop. Its true value is especially demonstrated in the production of small parts, prototypes, or hobby machining.

The greatest strength of this milling machine is that it can be installed in a small space. Furthermore, it is low cost and easy to operate, making it ideal for beginners and hobbyists. We specialize in materials such as aluminum, brass, and plastic, and are able to process small parts ranging from a few mm to a few cm.

As manufacturers, Takeda Machinery Co., Ltd. and Iwashita Co., Ltd. are attracting attention for their technological capabilities and quality.

Now that we have a better understanding about milling machine types, we can now take a look at the different types of tools that can be used with milling machines.

Types of milling tools installed on milling machines

Milling Machine Tool Types

One of the main reasons why milling machines are used in a wide range of fields is that they are compatible with a variety of processing methods. The key to achieving a wide range of applicable fields is the type of milling tool used for machining.

Here, we will introduce the following six milling tools.


Face Milling

As the name suggests, a face milling cutter is a milling tool primarily used to machine the flat surface of a part.

It can be installed on all milling machines, but is most often used on milling machines that are especially suited for flattening large parts. For this reason, it is best suited for use with types of milling machines such as bed milling machines and profile milling machines.

As an example of processing, the main applications are flat processing such as flattening metal blocks and surface finishing of large parts. Because of these characteristics, face milling cutters are widely used as a basic tool in the metal processing industry, and are recognized for their high efficiency and precision. It has been.

Groove Milling Cutter

Groove milling cutter is one of the milling tools used especially for machining grooves and keyways.

This tool is versatile enough to be installed on all milling machines. It is especially suitable for use with universal tool milling machines and bed-type milling machines, and when combined with these milling machines, extremely high precision and efficient machining can be achieved. will be realized.

The product is suitable for machining parts that require grooves and keyways of specific shapes and sizes, such as gears and other connecting parts used in the transmission parts of machines and vehicles. Due to its unique shape and high machining capacity, groove milling cutters have become an indispensable tool for many manufacturers.

Flat Milling Cutter

As the name suggests, a flat milling cutter is a milling tool specialized for machining flat surfaces and sides.

This tool can be installed on all milling machines due to its versatility. It is especially suitable for use with knee-type milling machines and bed-type milling machines. The combination of these improves stability and accuracy during machining, enabling efficient work.

Examples of products include processing general mechanical parts and frame parts. Due to its simple yet effective machining capabilities, flat milling cutters are an essential tool in many manufacturers and factories.

Side Milling Cutter

A side milling cutter is a type of milling tool that specializes in machining the sides of parts and specific shapes. This tool is characterized by its versatility, allowing it to be installed on all milling machines.

It is particularly recommended for use with knee-type milling machines and bed-type milling machines, and when used in combination with these milling machines, more accurate and efficient machining is possible.

As an example of a product, it is often used for shaping the external shape or processing parts with a specific shape. Due to their high precision and stability, side milling cutters are valued by many manufacturers and factories.

End Mill

An end mill is a type of milling tool that is specialized for machining parts and molds with complex shapes.

Although it has the advantage of being able to be installed on all milling machines, it is especially recommended for use with NC milling machines and universal tool milling machines. By combining these milling machines, it is possible to process complex shapes with high precision and process specific holes.

The greatest strength of this end mill is its ability to efficiently machine complex shapes and specific holes. For this reason, end mills have become indispensable in fields such as mold manufacturing that require advanced processing.

For those involved in manufacturing parts and molds with complex shapes, end mills are an important tool that combines reliability and efficiency.

Drill

A drill is one of the milling tools recommended especially for use with NC milling machines and knee milling machines. This tool is specialized for drilling holes. It is commonly used with NC milling machines and universal tool milling machines, and the combination of these machines enables high-precision hole machining.

The strength of drills is that they can efficiently machine all parts that require holes, such as bolt holes and down pin holes. For this reason, drills are used as indispensable tools at manufacturing sites for a wide variety of products.

At manufacturing sites where hole drilling is required, drills are supported by many engineers due to their reliability and efficiency.

Up to this point, we have explained the main types of milling tools.

By combining a milling machine and tools, you can perform milling as desired. In this next section, we will go over the specific types of milling and how to choose a milling machine depending on the type.

Milling Machine Selection Method

Milling Machine Selection Method

When selecting a milling machine, you need to choose the method that best suits your company’s goals.

The processing methods introduced below cover a wide range from basic milling machine operations to advanced techniques, and contribute to the manufacture of a wide variety of products. Specifically, a wide variety of processing is possible, including the following:


Plane milling

Plane milling, or plane processing, is a processing method that primarily creates a specified flat surface by cutting the surface of metal or plastic.

This processing method is used to create a uniform surface and can effectively remove surface roughness and unevenness. Furthermore, it is possible to achieve high precision and good finish with many materials.

Surface milling is used to process engine cylinder heads and blocks, precision machinery pedestals and guides, and metal frames and flanges, and is used in the following applications.

  • Improved flatness of metal parts
  • Finishing of mechanical parts that require high precision flatness
  • Surface finishing and rough removal


When planing planes, we recommend selecting the following processing machines and tools.

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine
  • Plano mirror

Recommended milling tools

  • Plane milling
  • End mill
  • Face milling (face mill)

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine
  • Plano mirror

Recommended milling tools

  • Plane milling
  • End mill
  • Face milling (face mill)


 On the other hand, there are also types of milling machines that are not suitable for surface milling, such as ball nose end mills, taper end mills, and thread milling machines.

Side milling

Side milling is a processing method that adjusts the shape and height of metal or plastic materials by cutting the sides.

The appeal of this processing method is that it can be processed in a variety of directions, such as vertically, horizontally, and diagonally, and side surfaces can be finished in a variety of shapes.

Side milling is used to process the outer periphery of gears and pulleys, metal machine covers and chassis, and the sides of precision blocks and holders, and is used in the following applications.

  • Finishing the outer circumferential shape of mechanical parts
  • Uniform height of metal blocks and frames
  • Adjusting the depth of slots and grooves
When milling the sides, we recommend choosing the following milling machines and tools.

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine

Recommended milling tools

  • Side mill
  • End mill
  • Groove milling

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine

Recommended milling tools

  • Side mill
  • End mill
  • Groove milling


 On the other hand, tools that are not suitable for side milling include ball nose end mills and drill bits, and there are also milling machines specialized for specific purposes such as thread milling machines and plano millers.

Step machining

Step machining is a processing method that creates a shape with multiple steps by cutting a part of the material to a predetermined depth. This processing method is specialized for making parts that come into contact or combine, such as mechanical parts and molds.

Step machining is used for machining mounting surfaces of jigs, gearbox mounting parts, and slide parts of precision machines, and is used for the following purposes.

  • Formation of contact and attachment parts of molds and jigs
  • Creating mating surfaces and steps to combine parts
  • Maintenance of machine guide rails and sliding surfaces


The following milling machines and tools are recommended for step machining.

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine

Recommended milling tools

  • Face milling (face mill)
  • End mill

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine

Recommended milling tools

  • Face milling (face mill)
  • End mill


 On the other hand, tools that are not suitable for step machining include drill bits and ball nose end mills, as well as milling machines specialized for specific purposes such as thread milling machines and plano millers.

Groove machining

Grooving is a technique for forming grooves of a specific width and depth on the surface of a material. This processing method is used for a wide variety of applications, including creating connections and attachments for mechanical parts, installing electrical circuit boards, and providing cable passage.

Groove machining is used to create grooves for gears and belts on pulleys, grooves for cables and wires passing through housing parts, and grooves for guide rails, and is used in the following applications.

  • Formation of connections and attachments for mechanical parts and equipment
  • Secure passage for electrical circuit boards and cables
  • Maintenance of machine guide rails and sliding parts


The following milling machines and their tools are recommended for groove machining.

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine

Recommended milling tools

  • Slot mill
  • End mill
  • T-slot cutter

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine

Recommended milling tools

  • Slot mill
  • End mill
  • T-slot cutter


 On the other hand, tools that are not suitable for grooving include drill bits and ball nose end mills, as well as certain milling machines such as thread mills and plano millers.

Drilling

Drilling is used for processing flanges with holes for attaching bolts and machine parts with holes for pin connections, and includes the following: It is used for this purpose.

  • Creating holes of specific depth and diameter in the material
  • Work with special emphasis on accuracy of hole position, depth, and diameter
  • Drilling work using drilling or boring


The following milling machines and tools are recommended for drilling holes.

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine

Recommended milling tools

  • Drill
  • Bowling bar

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine

Recommended milling tools

  • Drill
  • Bowling bar


 On the other hand, tools that are not suitable for drilling include end mills and slot mills, as well as plano mirrors, thread milling machines, and milling machines that specialize in three-dimensional curved surface machining.

Thread cutting

Thread cutting is known as a machining method that forms a thread shape in a specific material.

This includes machining internal threads that are formed inside the hole and external threads that are created around the outer perimeter of the material. A characteristic of this processing method is that the accuracy of the thread pitch, depth, and shape are extremely important.

Thread cutting is used to create connections with bolts and screws, to form connections between pipes and tubes, and to assemble and attach mechanical parts, and is used in the following applications.

  • Creating connections with bolts and screws
  • Formation of pipe and tube connections
  • Assembling mechanical parts and creating attachment parts


The following milling machines and tools are recommended for thread cutting.

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine
  • Plano mirror

Recommended milling tools

  • Tap
  • Die
  • Threading end mill

Recommended milling machines

  • NC milling machine
  • Universal tool milling machine
  • Bed type milling machine
  • Plano mirror

Recommended milling tools

  • Tap
  • Die
  • Threading end mill


 On the other hand, tools that are not suitable for thread cutting include twist drills and slot mills, and plano mirrors and milling machines that specialize in three-dimensional machining are also not suitable.

3D machining

Three-dimensional machining is widely recognized as a method for machining complex curved surfaces and three-dimensional shapes by simultaneously controlling the three axes of XYZ.

This makes it easier to create complex shapes that were difficult with conventional flat or two-dimensional processing. The key to this machining method is toolpath generation using CAM software based on 3D CAD data.

3D processing is used to process automobile aero parts, aircraft turbine blades, uniquely designed jewelry and sculptures, and is used in the following applications:

  • Production of parts and molds with complex three-dimensional shapes
  • Advanced prototyping of aircraft and auto parts
  • Creating sculptures and works of art with artistic value

The following milling machines and tools are recommended for 3D machining.

Recommended milling machines

  • NC milling machine
  • 5-axis milling machine

Recommended milling tools

  • End mill

Recommended milling machines

  • NC milling machine
  • 5-axis milling machine

Recommended milling tools

  • End mill


 On the other hand, there are tools that are not suitable for 3D machining, such as straight drills, and types of milling machines such as plano mirrors and thread milling machines are also not suitable.

Now that we have gone over milling machine types as well as tools, we can now take a closer look at the various advantages and disadvantages of using milling machines.

Advantages and disadvantages of milling machines compared to other processing machines

Milling Machine Advantages and Disadvantages

Among various metal processing machines, milling machines are particularly useful at many manufacturing sites due to their versatility and flexibility. However, compared to other processing machines, it has unique advantages and disadvantages.

Here, we will introduce the advantages and disadvantages of milling machines when compared to other processing machines. First, let’s take a look at the benefits.

Advantages of introducing a milling machine

There are three advantages to using a milling machine:



Ability to process various shapes

The ability to process a variety of shapes is one of the greatest features and benefits of using a milling machine. This machine utilizes a rotating cutter to machine not only flat surfaces and sides, but also grooves, steps, and even highly complex 3D shapes. It is possible to handle it.

This capability enables us to manufacture a wide variety of products, including engine parts, aircraft structural components, and complex molds.

Machining such diverse shapes is difficult with machines such as lathes. Lathes are specialized for machining cylindrical and annular parts, so they do not have the versatility of milling machines.

Milling machines make it possible to process a wide range of products, greatly contributing to improved productivity and efficiency.

Simultaneous machining with multiple blades is possible

Milling machines are capable of simultaneous machining with multiple blades. The cutter on this machine is usually equipped with multiple blades, which allows it to efficiently process many parts in one rotation.

This property is especially valuable in areas where mass production is required, such as in the manufacture of automobile parts. This is because being able to process many parts at the same time in a single operation greatly improves production efficiency and reduces manufacturing costs.

Compared to other processing machines, this ability of milling machines stands out and gives it an advantage in producing a wide variety of parts.

Having a variety of processing methods

The diversity of processing methods used by milling machines is due to the wide variety of cutting edges available.

A variety of cutting edges can be selected depending on the material used and the required precision of processing. Specific choices can be made, such as cutting edges for processing hard materials or creating special shapes, or cutting edges for processing soft materials or when high precision is required.

This diversity has great value in situations such as the aerospace industry, where extremely high precision is required, and in the electronics industry, where parts are manufactured using specific materials. Milling machines make the most of their capabilities in a wide range of industrial fields by meeting these diverse demands.

Disadvantages of milling machine

The advantages introduced so far are essential when manufacturing various parts and machines, but by keeping in mind the following three disadvantages, you can select a machine more accurately and manufacture it efficiently. It becomes.



Processing speed is slower than other processing machines

It is worth noting that when using a milling machine, there are speed constraints, especially when machining hard materials. Specifically, when compared to lathes and grinders, the processing speed of a milling machine is usually approximately 10 to 20% slower.

This slowness can appear as a constraint, especially in situations where mass production or short-term production is required. However, considering its diverse processing capabilities and degree of freedom in shapes, there are many situations in which speed constraints are judged to be within an acceptable range.

Setting time is longer than other processing machines

In order to take advantage of our strength in handling a wide variety of machining shapes, it takes an average of 30 minutes or more to set up tools and jigs on a milling machine, and other It tends to be longer than other processing machines.

Setting up highly specialized processing equipment such as lathes and grinders can be completed in about 10 minutes. This time difference can have a significant impact in situations where time is limited, such as when mass production or sudden production requests are required.

However, considering the versatility of milling machines and the degree of freedom in machining, this long setup time is understandable.

May be noisy

Milling machines make a lot of noise when they operate, and there is a risk of disturbing nearby residents. Especially when using large milling machines or cutters that operate at high speed, the average noise level during operation is typically over 75 dB.. This number is 5 to 10 dB higher than other machine tools, which can be quite a strain on your ears.

This noise also affects the entire work environment, impairing the concentration and working environment of the operator and surrounding workers. Therefore, efforts are required to reduce noise, such as appropriate soundproofing measures and the use of earplugs.

It is important to take these points into account and make the most of the performance and versatility of your milling machine.


Comparison of 6 recommended manufacturers of milling machines

Companies that manufacture milling machines

Milling machines have some very good manufacturers in the market. In this section, let us take a closer look and compare six different milling machine companies and see what they have to offer.

NC
Milling machine		 Bed type
Milling machine		 Universal tool
Milling machine		 Trailing
Milling machine		 Plano mirror Thread cutting
Milling machine		 Desktop
Milling machine
Makino Milling Works
(Makino)
Proxon
Takeda Machinery
Number of brands
Iwashita
Nissei
Honma Machinery
Kashifuji


If you are having trouble selecting a manufacturer or are looking for more specific information, please contact us using the button below.

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Makino Milling Works (Makino)

Makino Milling Works (Makino) was founded in Osaka in 1914 and is known as a manufacturer that manufactures and sells machine tools with a long history. Milling machines, which boast the top market share in Japan, are being introduced in a wide variety of industries, from automobiles to aerospace to precision machinery.

Makino Milling Seisakusho has ultra-precision machining technology and realizes high-precision machining of automobile parts and aerospace parts. Other strengths include multi-processing technology that performs multiple processing steps on one machine, and remote monitoring and control of machines using IoT technology.

Our lineup of milling machines includes NC milling machines, bed-type milling machines for large workpieces, and multifunctional all-purpose tool milling machines.

Makino Milling Machinery’s milling machines are used by major companies such as Toyota Motor Corporation, Nissan Motor Co., Ltd. and Honda Motor Co., Ltd. in the automobile industry, Boeing, Airbus, and Mitsubishi Heavy Industries in the aerospace industry, and companies such as Keyence, Omron, and Nikon in the precision machinery industry. It has been introduced.

The products manufactured include parts such as engines, turbines, and gearboxes, as well as parts for robots and machine tools.

Proxon

Proxxon is a manufacturer of small machine tools that was founded in Germany in 1982 and has since expanded to more than 100 countries around the world.

In terms of technical strengths, Proxxon has compact design technology that enables high-precision machining despite its small size. We are proud of our cost performance.

Our product lineup of milling machines includes products that meet a variety of needs, including tabletop milling machines, CNC milling machines, and even 3D printers. In particular, there are many products that are suitable for DIY, hobby crafts, prototyping, and small-lot production.

Regarding the target industry and company name, Proxon milling machines are widely used in educational institutions, individuals, and companies. Specifically, its performance is demonstrated in the production of models, crafts, and various parts.

If you are looking for a small milling machine, we will recommend the best company for your company along with Proxxon. Please contact JET Global using the button below.

Takeda Machinery

Takeda Kikai began its history in 1966 in Nomi City, Fukui Prefecture, and currently manufactures and sells machine tools such as milling machines, machining centers, and drilling machines, and boasts a high reputation both domestically and internationally.

One of its technical strengths is that Takeda Machinery has a highly rigid design that enables high-precision machining.

In addition, we have reduced running costs through energy-saving design and have an efficient production system through the introduction of IoT technology.

We manufacture a wide variety of milling machines, including NC milling machines, bed type milling machines, and all-purpose tool milling machines. These products are widely used in various industries such as automotive, aerospace, and precision machinery.

Takeda Machinery’s milling machines are used in many major industries and companies, including Toyota, Nissan, Boeing, Airbus, Keyence, and Omron. These companies contribute to the manufacture of a wide variety of products, including parts for automobiles and aircraft, as well as parts for precision machinery.

Our product lineup includes the M-2000 vertical milling machine, the B-1000 bed milling machine, and the SF-100 small milling machine.

Iwashita

Iwashita was founded in Osaka in 1914, and since then has been manufacturing and selling machine tools such as milling machines, machining centers, and drilling machines. In addition to receiving high praise both domestically and internationally, Iwashita is known as a manufacturer with the top share of the domestic milling machine market.

Iwashita’s technological strength is that it has high rigidity design technology, which enables high precision processing. In addition, we have cost reduction through energy-saving design and an efficient production system through the introduction of IoT technology.

The types of milling machines we particularly handle include NC milling machines, bed type milling machines, and all-purpose tool milling machines. These are widely used in various industries such as automobiles, aerospace, and precision machinery.

Iwata’s milling machines are used by major companies such as Toyota, Nissan, Boeing, and Airbus. Our main products include parts for automobiles, aircraft, and precision machinery.

Specific examples of our product lineup include the F-2000 vertical milling machine, the B-1000 bed milling machine, and the SF-100 small milling machine. These products represent Iwashita’s technological strength and are of high quality and efficiency.

Especially in the field of bed milling machines, Iwashita is known for its technical strength and quality. We are also focusing on developing products that utilize IoT technology, and we look forward to further technological innovations in the future.

Nissei Honma Machinery

Nissei Honma Machinery was founded in 1917, and since then has been manufacturing and selling machine tools such as milling machines, machining centers, drilling machines, lathes, and cutting tools. Its technical capabilities are highly praised both domestically and internationally.

Our technological strengths include industry-leading high-rigidity design, high-speed processing technology, and the introduction of IoT technology. These technologies enable significant reduction in machining time and high-precision machining.

The milling machines that we handle in particular include bed milling machines, all-purpose tool milling machines, and plano millers. These products are used by many companies as essential for manufacturing automotive and aerospace parts.

Nissei Honma Machinery’s milling machines are used by major companies such as Toyota and Nissan, as well as Boeing and Airbus. Our main products include automobile parts such as engines, transmissions, and suspensions, as well as aircraft engines and turbines.

A noteworthy piece of information is that Nissei Honma Machinery is known as the only manufacturer in Japan that manufactures plano mirrors. This plano mirror is a milling machine that specializes in flat surface processing, and is an essential product for manufacturing aerospace parts and precision machinery.

Compared to other manufacturers, Nissei Honma Machinery differentiates itself by manufacturing plano mirrors, the industry’s highest level of high rigidity design, and introducing IoT technology.

Kashifuji

Kashifuji Co., Ltd. is known as Japan’s top manufacturer of thread milling machines. This milling machine is supported by many industries as an indispensable product in the manufacturing of automobile parts and precision machinery.

In particular, Kashifuji’s thread milling machines are capable of high-precision thread cutting, and the high-speed movement of the spindle and table can significantly reduce machining time compared to conventional machines. Additionally, it can cut a wide variety of threads, from metric threads to inch threads and special threads.

As a specific feature, the spindle moves at an astonishing speed of 10,000 revolutions per minute, and the table moves at an astonishing speed of 2,000 mm per minute.

It is also equipped with many functions to achieve high-precision thread cutting, such as shortening thread cutting setup time and suppressing vibration during processing. In terms of operability, the design is user-friendly, with features such as a large operation panel, automatic driving functions, and fault diagnosis functions.

Kashifuji Co., Ltd.’s thread milling machines are ideal for manufacturing automobile parts and precision machinery as they achieve high-precision and high-speed machining. Its technical capabilities and track record are highly praised by the industry.


Investing in your own Milling Machine!

If you have any questions or concerns regarding any of the topics mentioned here or require help choosing a company, please contact us.

Our team of specialists will help you find the perfect machine for your business.

We will make suggestions that suit your company’s requirements based on the features of the product and the strengths of each individual company.

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