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This section provides an overview for shape measuring machines as well as their applications and principles. Also, please take a look at the list of 4 shape measuring machine manufacturers and their company rankings. Here are the top-ranked shape measuring machine companies as of January, 2025: 1.Kosaka Laboratory Ltd., 2.TOKYO SEIMITSU CO., LTD., 3.ZEISS Microscopy.
Table of Contents
A shape-measuring machine is a device used to measure the roundness of an object with a circular cross-section, such as a cylinder or a sphere.
Roundness is defined in JIS B 0621 as "the amount of deviation of a circular object from a geometrically correct circle". This means that when the cross-sectional shape of a measured object is sandwiched between two geometrically correct concentric circles, the roundness is expressed as the minimum difference in radius between the two circles.
There are two types of shape-measuring machines: the stage rotation type, where the detector is fixed and the object to be measured is rotated by a rotation stage, and the probe rotation type, where the detector rotates while the object to be measured is fixed.
Shape-measuring machines are used to measure the roundness of various objects, such as parts, in a single cross-section. For example, in hydraulic circuits, valves, and seals, strict dimensional tolerances are required to ensure oil sealing and air tightness.
In bearing parts, roundness is an important characteristic for smooth and frictionless bearing function. It is also used for quality assurance of mechanical parts that require high precision. The purpose of measuring roundness is not only to measure the dimensional shape of shafts but also to measure surface properties.
As mentioned earlier, there are two types of shape-measuring machines, and the difference is due to the difference in their operation. Both have their merits and demerits, but here we will discuss the principle of the rotary table type, which allows for higher precision measurements.
A rotary table-type shape measuring machine consists of a rotary table capable of detecting the rotation angle using a rotary encoder and a detector that detects displacement of the workpiece surface synchronized with the rotation of the table. While the object to be measured is placed on the rotary table and rotated, the displacement of the surface of the object to be measured is detected by a probe. The roundness is determined from the profile obtained by recording the angle of rotation and the displacement of the workpiece surface over 360°.
Care must be taken in roundness measurement because any misalignment between the center axis of the measurement target and the rotation during rotation will cause runouts and lead to errors. Also, if the angle between the axis of rotation and the displacement direction of the probe is not perpendicular, it will lead to errors.
When evaluating roundness, it is necessary to define a reference circle as a standard. There are four types of reference circles, and the roundness is defined according to the reference circle.
Least Squares Circle (LSC)
The least-squares circle is a reference circle in which the area outside and inside are equal when the reference circle is applied to the object to be measured. The difference between the distance of the nearest part and the farthest part from this least-squares reference circle is evaluated as the least-squares circularity.
Minimum Zone Circle (MZC)
The minimum area reference circle is the concentric circle with the smallest difference between the diameters of the two circles placed between the object to be measured from the outside and the inside.
Minimum Circumscribed Circle(MCC)
The minimum circumscribed circle is the circle that can enclose the entire measurement object and has the smallest diameter. The furthest distance from the minimum circumscribed circle to the contour of the object is evaluated as the minimum circumscribed circularity.
Maximum Inscribed Circle (MIC)
The maximum inscribed circle is the largest circle inscribed within the object. The furthest distance from the maximum inscribed circle to the contour of the object is evaluated as the maximum inscribed circularity.
Cylindricity is a geometric tolerance similar to roundness. The difference between the two is the range of evaluation. While roundness is evaluated on an arbitrary cross-section, cylindricity is evaluated with a certain range in the axial direction.
Since the evaluation range is wider than that of roundness, it is more difficult to ensure accuracy. It is important to determine whether to indicate roundness or cylindricity based on the function of the part. Roundness can be evaluated for shapes with different diameters in different cross sections, such as tapered shapes, while cylindricity can only be indicated for cylinders with the same diameter in the axial direction.
*Including some distributors, etc.
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Tokyo Seimitsu Co. Ltd., established in 1949 and headquartered in Tokyo, Japan, is a manufacturer of semiconductor production equipment and precision measuring instruments. Its product portfolio includes optical measuring instruments, probing machines, polish grinders, X-ray CT systems, and coordinate measuring machines. In 1952, the company developed Japan’s first high-pressure flow-type air micrometer, and in 1958, it created the world’s first germanium pellet automatic thickness sorting machine. It also developed Japan’s first coordinate measuring machine in 1969, followed by Japan’s first wafer-dicing machine in 1970. The company is the industry’s only semiconductor equipment manufacturer with measurement technology.
ZEISS Microscopy, established in Jena, Germany, in 1846 is a manufacturer of optics and optoelectronics used in Precision Mechanics, Binoculars, Microscopy, and Eyeglass Lenses. Their product portfolio includes precision optics, such as lenses, mirrors, and prisms, laser mirrors used in laser cutting, and medical devices, optoelectronic devices and Coatings and Thin Films. The company also provides solutions including industrial quality, microscopy research, project simulation, sample testing and product development. The company also offers customer services that include support, custom research projects and customized services.
Kosaka Laboratory Ltd., a company founded in 1950 and headquartered in Tokyo, Japan, is a manufacturer and supplier specializing in the production of precision measuring instruments. The company's product portfolio includes precision measuring instruments, hydraulic equipment, automatic machinery, and food equipment. These products are utilized by various industries, including the packaging industry, electronics, wind-power generation, manufacturing and engineering, and food and beverage. The company holds the ISO 9001 certificate for its Quality Management System (QMS).
Obishi Keiki Seisakusho, established in 1949 in Osaka, Japan, is a manufacturer of precision test and measurement equipment. The company specializes in manufacturing automatic measuring equipment, ultra-precision masters, precision spirit levels, surface plates, angle plates, and deflection testers. These efficient equipment are used in multiple industries such as automotive, electronics, aerospace, and research and development for the purpose of precise measurements, quality control, and testing the performance of the products. The precision equipment is made of granite and ceramics, ensuring efficient handling and performance in harsh environments such as heat.
Ranking as of January 2025
Derivation Method| Rank | Company | Click Share |
|---|---|---|
| 1 | Kosaka Laboratory Ltd. |
33.3%
|
| 2 | TOKYO SEIMITSU CO., LTD. |
33.3%
|
| 3 | ZEISS Microscopy |
22.2%
|
| 4 | Obishi Keiki Seisakusho |
11.1%
|
Derivation Method
The ranking is calculated based on the click share within the shape measuring machine page as of January 2025. Click share is defined as the total number of clicks for all companies during the period divided by the number of clicks for each company.Number of Employees
Newly Established Company
Company with a History
*Including some distributors, etc.
| Country | Number of Companies | Share (%) |
|---|---|---|
|
Japan
|
3 | 75.0% |
| Deutschland | 1 | 25.0% |
22 products found
22 products
Tokyo Optoelectronic Industry Co., Ltd.
220+ people viewing
Last viewed: 1 hour ago
If you memorize the measurement items (outer diameter, runout, roundness, straightness, crown shape, etc.), measurement points, and type of created...
4 models listed
Meishin Koki Co., Ltd.
110+ people viewing
Last viewed: 1 day ago
Standard Response
5.0 Company Review
■Summary RONDCOM's top-of-the-line model combines world-class ultra-high precision with excellent functionality and operability. Features ■Ultra h...
Meishin Koki Co., Ltd.
90+ people viewing
Last viewed: 14 hours ago
Standard Response
5.0 Company Review
■Summary This is a roundness/cylindrical shape measuring machine that can be equipped with two labor-saving options. Features ■Improve efficiency ...
CHUO ELECTRIC WORKS L.T.D
210+ people viewing
Last viewed: 5 hours ago
Standard Response
■Summary This device uses two optical systems to photograph and inspect the roundness of the object to be measured. ・Inspection process takes time...
30+ people viewing
Last viewed: 57 minutes ago
■Summary Compact for production sites, easy to operate and quick measurements without the need for a PC. ■Features ・Easy operation by anyone with...
30+ people viewing
Last viewed: 57 minutes ago
■Summary Ideal for measuring cylindrical shapes of large objects. A space-saving type equipped with an automatic table with automatic centering, au...
30+ people viewing
Last viewed: 57 minutes ago
■Summary It is a fully automatic measuring machine with excellent reproducibility, best in class high precision, high functionality, equipped with ...
Kosaka Laboratory Ltd.
90+ people viewing
Last viewed: 2 hours ago
■Features Compact for production sites, easy to operate and quick measurements without the need for a PC. ・Easy operation by anyone with centering...
Kosaka Laboratory Ltd.
70+ people viewing
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■Features It is a tabletop type with a cylinder evaluation function that emphasizes operability and boasts a high-precision rotational accuracy des...
Kosaka Laboratory Ltd.
70+ people viewing
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■Features EC1650H, full of ideas for “highly accurate and quick” measurement ・High resolution ・The filter uses 2CR normal type, 2CR, and Gaussian...
Kosaka Laboratory Ltd.
70+ people viewing
Last viewed: 2 hours ago
■Features Equipped with a high-precision automatic table, this is a fully automatic measuring machine that performs everything from tilting/centeri...
Kosaka Laboratory Ltd.
80+ people viewing
Last viewed: 8 hours ago
■Features This is a highly accurate roundness/cylindrical shape measuring machine that anyone can easily use. Designed to reduce the burden on the ...
Kosaka Laboratory Ltd.
80+ people viewing
Last viewed: 8 hours ago
■Features It is a fully automatic measuring machine with excellent reproducibility, best in class high precision, high functionality, equipped with...
Kosaka Laboratory Ltd.
80+ people viewing
Last viewed: 8 hours ago
■Features You can freely change the position of the detector according to the measurement menu and measure all inner and outer diameters and upper ...
Kosaka Laboratory Ltd.
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■Features Compatible with measurements of all piston shapes. Easily measure piston oval, taper, and ring groove shapes. EC3300P is a high precision...
Kosaka Laboratory Ltd.
50+ people viewing
Last viewed: 7 hours ago
■Features This is a rotary table roundness/cylindrical shape measuring machine that can handle large and heavy objects. Especially suitable for mea...
Kosaka Laboratory Ltd.
60+ people viewing
Last viewed: 7 hours ago
■Features Ideal for measuring cylindrical shapes of large objects. A space-saving type equipped with an automatic table with automatic centering, a...
Kosaka Laboratory Ltd.
80+ people viewing
Last viewed: 7 hours ago
■Features A surface roughness measuring machine is combined with a roundness measuring machine, and in addition to all measurements made by the rou...
