List of Cutting Tools products
- classification:Cutting Tools
1321~1380 item / All 7239 items
For those who have isolators. Achieving high chemical resistance and workability. Low cost and short delivery times are also possible for glove box and isolator gloves.
- Work gloves
Notice of participation in 'INTERPHEX Week Tokyo' from May 20 (Wednesday) to May 22 (Friday), 2026.
Ito Corporation will be exhibiting at "INTERPHEX Week Tokyo" held at Makuhari Messe. This exhibition is the largest in Japan, showcasing a wide range of products and services related to the research and manufacturing of pharmaceuticals, cosmetics, and regenerative medicine from 25 countries and regions around the world. Pharmaceutical and cosmetic manufacturers, as well as regenerative medicine companies, will be attending from all over the globe. We will be showcasing "Gloves for Glove Boxes/Isolators" manufactured by Tron Power. We look forward to your visit.
Achieving high speed and high reliability with 100% domestic production! Ideal for cardboard cutting up to 8mm.
- cutter
Product introduction through sample cut video! You can cut while freely tilting the blade.
- cutter
Product introduction through sample cut video! Honeycomb cardboard V-cut (diagonal cut)
- cutter
Product introduction through sample cut video! Cutting 8mm cardboard material.
- cutter
This is a 3-blade countersink. It has a very large scoop angle and excellent cutting performance. It is especially suitable for countersinking, chamfering, and deburring stainless steel.
- Other cutting tools
Using our unique patented technology, anyone can easily grind the second escape angle and polish it to a split point (X thinning).
- drill
X grinding machine for diameters from 12 mm to 26 mm. Anyone can easily grind up to the second escape. With additional collets, it can grind from a minimum of 8 mm to a maximum of 32 mm.
- drill
2025 Kyoto-Shiga Machine & Tool Solution Fair
【Highlights of the Fast Tech Booth】 ◆ Mag Vice (Permanent Electromagnetic Chuck for Cutting, Permanent Magnetic Clamping Block for Cutting) It is possible to significantly improve productivity by reducing setup time for workpieces, shortening processing time through simultaneous five-sided machining, and enabling simultaneous processing of multiple pieces. ◆ Workholding Tools for 5-Axis Machining Centers The self-centering vice clamps the workpiece strongly with a single-side swing jaw. We also propose workholding tools using a zero-point system and Mag Vice (permanent electromagnetic chuck). The zero-point system is compatible with EROWA, System 3R, and COROMANT CAPTO, ensuring high precision in repeatability and supporting automation. ◆ Wire Cut Vice It allows for setup with excellent repeatability, thereby improving productivity. It has high repeatability and is compatible with automation. ◆ Drill Grinding Machine Anyone can easily grind drills to an X-shape with a 2nd relief angle. ◆ Permanent Magnetic Lifting Magnet A very powerful and compact lifting magnet with a safety factor of 3.5 times.
A set of 30 electroplated diamond bars costs 6,800 yen.
- Other cutting tools
This is a spring collet according to the German DIN 6499 standard. The runout accuracy is ±15 microns to ±20 microns, but it is inexpensive.
- Chuck
X thinning grinder for diameters from 3mm to 20mm. Anyone can easily grind up to the second relief. Can also grind carbide drills by replacing with SDC wheels.
- drill
2025 Kyoto-Shiga Machine & Tool Solution Fair
【Highlights of the Fast Tech Booth】 ◆ Mag Vice (Permanent Electromagnetic Chuck for Cutting, Permanent Magnetic Clamping Block for Cutting) It is possible to significantly improve productivity by reducing setup time for workpieces, shortening processing time through simultaneous five-sided machining, and enabling simultaneous processing of multiple pieces. ◆ Workholding Tools for 5-Axis Machining Centers The self-centering vice clamps the workpiece strongly with a single-side swing jaw. We also propose workholding tools using a zero-point system and Mag Vice (permanent electromagnetic chuck). The zero-point system is compatible with EROWA, System 3R, and COROMANT CAPTO, ensuring high precision in repeatability and supporting automation. ◆ Wire Cut Vice It allows for setup with excellent repeatability, thereby improving productivity. It has high repeatability and is compatible with automation. ◆ Drill Grinding Machine Anyone can easily grind drills to an X-shape with a 2nd relief angle. ◆ Permanent Magnetic Lifting Magnet A very powerful and compact lifting magnet with a safety factor of 3.5 times.
One-letter drill grinding machine for diameters from 3mm to 20mm. Anyone can easily grind to a one-letter shape with a second relief. Can also grind carbide drills by replacing with SDC wheels.
- drill
Significantly improve turbine productivity with ultra-hard Christmas cutters!
- Other cutting tools
![[Free Case Study Available] Improvi...](https://image.mono.ipros.com/public/product/image/d65/2001197426/IPROS7259426516999947693.png?w=280&h=280){kind=small}
We will provide a collection of successful cases of improved productivity for free! With Mag Vise, it is possible to shorten setup time and process multiple items simultaneously.
- Chuck
[Workshop] Clamping work with Magvise to significantly improve machining productivity.
【Date and Time】 May 15, 2025 (Thursday) 11:35 AM - 12:35 PM 【Location】 Ishikawa Prefectural Industrial Exhibition Hall, Building 1, 2nd Floor (MEX Kanazawa 2025 Exhibition Venue) 193 Fukuhata Minami, Kanazawa City, Ishikawa Prefecture, 920-0361 【Workshop Content】 The attraction of workpieces using magnetic force allows for processing without interference from fixtures, enabling one-chucking operations without replacing the workpiece. We will introduce this method with practical examples.
Ideal for clamping workpieces that require high precision! Suitable for surface grinding machines.
- Chuck
Vibration accuracy ranges from ±15 microns to ±20 microns! A user-friendly product that pursues low cost.
- Chuck
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, the outer diameter can be accurately measured in units of 0.01mm.
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By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured to an accuracy of 0.01mm.
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By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured to an accuracy of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be measured accurately to an accuracy of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured to an accuracy of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, it is possible to accurately measure the outer diameter in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, the outer diameter can be measured accurately to an accuracy of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, the outer diameter can be measured accurately to an accuracy of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in increments of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, the outer diameter can be accurately measured in increments of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in increments of 0.01 mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured to an accuracy of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, the outer diameter can be accurately measured in increments of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, it is possible to accurately measure the outer diameter in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01 mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, the outer diameter can be measured accurately to an accuracy of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01 mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it adheres closely, the outer diameter can be measured accurately to an accuracy of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By wrapping tape around the outer circumference of the object being measured and ensuring it is in close contact, the outer diameter can be accurately measured in units of 0.01mm.
- byte
By attaching tape to the inside of the measured object and ensuring it is in close contact, the inner diameter can be accurately measured in units of 0.01mm.
- byte
By attaching tape to the inside of the measured object and making it adhere, it is possible to accurately measure the inner diameter in units of 0.01mm.
- byte
By attaching tape to the inside of the measured object and ensuring it is in close contact, the inner diameter can be accurately measured in units of 0.01mm.
- byte
By attaching tape to the inside of the measured object and ensuring it is in close contact, the inner diameter can be measured accurately to an accuracy of 0.01 mm.
- byte
By attaching tape to the inside of the measured object and ensuring it is in close contact, the inner diameter can be accurately measured in units of 0.01mm.
- byte
By attaching tape to the inside of the measured object and ensuring it is in close contact, the inner diameter can be measured accurately to a precision of 0.01mm.
- byte
By attaching tape to the inside of the measured object and ensuring it is in close contact, the inner diameter can be accurately measured in units of 0.01mm.
- byte
By attaching tape to the inside of the measured object and ensuring it is in close contact, the inner diameter can be measured accurately to an accuracy of 0.01mm.
- byte
By attaching tape to the inside of the measured object and ensuring it is in close contact, the inner diameter can be accurately measured in units of 0.01mm.
- byte
By attaching tape to the inside of the measured object and ensuring it is in close contact, the inner diameter can be accurately measured in units of 0.01mm.
- byte
By attaching tape to the inside of the measured object and ensuring it is in close contact, the inner diameter can be accurately measured in units of 0.01mm.
- byte
The circumference measuring tape can be wrapped around the outer circumference of the object to be measured, just like the outer diameter tape, allowing for measurement of the circumference length in ...
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The circumference measuring tape can be wrapped around the outer circumference of the object being measured, just like the outer diameter tape, allowing for measurement of the circumference length in ...
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Using a linear tape, the length of a 3m workpiece can be measured with an accuracy of 0.1mm.
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Using a linear tape, the length of a 3m workpiece can be measured in units of 0.1mm.
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