ISO 230-7:2015
Current
Current
The latest, up-to-date edition.
Test code for machine tools — Part 7: Geometric accuracy of axes of rotation
Available format(s)
Hardcopy , PDF
Language(s)
English, French
Published date
05-11-2015
US$259.00
Excluding Tax where applicable
ISO 230-7:2015 is aimed at standardizing methods of specification and test of the geometric accuracy of axes of rotation used in machine tools. Spindle units, rotary heads, and rotary and swivelling tables of machine tools constitute axes of rotation, all having unintended motions in space as a result of multiple sources of errors.
ISO 230-7:2015 covers the following properties of rotary axes:
- axis of rotation error motion;
- speed-induced axis shifts.
The other important properties of rotary axes, such as thermally induced axis shifts and environmental temperature variation-induced axis shifts, are dealt with in ISO 230‑3.
ISO 230-7:2015 does not cover the following properties of spindles:
- angular positioning accuracy (see ISO 230‑1 and ISO 230‑2);
- run-out of surfaces and components (see ISO 230‑1);
- tool holder interface specifications;
- inertial vibration measurements (see ISO/TR 230‑8);
- noise measurements (see ISO 230‑5);
- rotational speed range and accuracy (see ISO 10791‑6 and ISO 13041‑6);
- balancing measurements or methods (see ISO 1940‑1 and ISO 6103);
- idle run loss (power loss);
- thermal effects (see ISO 230‑3).
| Committee |
ISO/TC 39/SC 2
|
| DevelopmentNote |
Supersedes ISO/DIS 230-7. (05/2015)
|
| DocumentType |
Standard
|
| Pages |
72
|
| ProductNote |
THIS STANDARD IS ALSO CORRECTED VERSION OF (en) : 2015-07
|
| PublisherName |
International Organization for Standardization
|
| Status |
Current
|
| Supersedes |
| Standards | Relationship |
| BS ISO 230-7:2015 | Identical |
| NEN ISO 230-7 : 2015 | Identical |
| NF ISO 230-7 : 2015 | Identical |
| SS-ISO 230-7:2020 | Identical |
| JIS B 6190-7:2019 | Identical |
| IS 2063 : Part 7 : 2023 | Identical |
| UNE-ISO 230-7:2008 | Identical |
| ISO/TR 17243-2:2017 | Machine tool spindles — Evaluation of spindle vibrations by measurements on non-rotating parts — Part 2: Direct-driven spindles and belt-driven spindles with rolling element bearings operating at speeds between 600 r/min and 30 000 r/min |
| PD ISO/TR 17243-1:2014 | Machine tool spindles. Evaluation of machine tool spindle vibrations by measurements on spindle housing Spindles with rolling element bearings and integral drives operating at speeds between 600 min<sup>-1</sup> and 30 000 min<sup>-1</sup> |
| BS ISO 13041-2:2008 | Test conditions for numerically controlled turning machines and turning centres Geometric tests for machines with a vertical workholding spindle |
| PD ISO/TR 17243-2:2017 | Machine tool spindles. Evaluation of spindle vibrations by measurements on non-rotating parts Direct-driven spindles and belt-driven spindles with rolling element bearings operating at speeds between 600 r/min and 30 000 r/min |
| ISO 8636-2:2007 | Machine tools — Test conditions for bridge-type milling machines — Testing of the accuracy — Part 2: Travelling bridge (gantry-type) machines |
| ISO 230-1:2012 | Test code for machine tools — Part 1: Geometric accuracy of machines operating under no-load or quasi-static conditions |
| 15/30281521 DC : 0 | BS ISO 13041-2 - TEST CONDITIONS FOR NUMERICALLY CONTROLLED TURNING MACHINES AND TURNING CENTRES - PART 2: GEOMETRIC TESTS FOR MACHINES WITH A VERTICAL WORKHOLDING SPINDLE |
| BS ISO 8636-2:2007 | Machine tools. Test conditions for bridge-type milling machines. Testing of the accuracy Travelling bridge (gantry-type) machines |
| ISO 3070-1:2007 | Machine tools — Test conditions for testing the accuracy of boring and milling machines with horizontal spindle — Part 1: Machines with fixed column and movable table |
| ISO 3070-2:2016 | Machine tools — Test conditions for testing the accuracy of boring and milling machines with horizontal spindle — Part 2: Machines with movable column along the X-axis (floor type) |
| 12/30255483 DC : 0 | BS ISO 1985 - MACHINE TOOLS - TEST CONDITIONS FOR SURFACE GRINDING MACHINES WITH VERTICAL GRINDING WHEEL SPINDLE AND RECIPROCATING TABLE - TESTING OF THE ACCURACY |
| 09/30118717 DC : DRAFT OCT 2009 | BS ISO 230-1 - TEST CODE FOR MACHINE TOOLS - PART 1: GEOMETRIC ACCURACY OF MACHINES OPERATING UNDER NO-LOAD OR QUASI-STATIC CONDITIONS |
| BS ISO 3070-3:1997 | Test conditions for boring and milling machines with horizontal spindle. Testing of the accuracy Floor type machines with detached, stationary work-holding table |
| BS ISO 3070-2:1997 | Test conditions for boring and milling machines with horizontal spindle. Testing of the accuracy Table-type machines |
| 12/30205788 DC : 0 | BS ISO 10791-6 - TEST CONDITIONS FOR MACHINING CENTRES - PART 6: ACCURACY OF SPEEDS AND INTERPOLATIONS |
| BS ISO 10791-6:2014 | Test conditions for machining centres Accuracy of speeds and interpolations |
| BS ISO 3070-1:2007 | Machine tools. Test conditions for testing the accuracy of boring and milling machines with horizontal spindle Machines with fixed column and movable table |
| 18/30325145 DC : 0 | BS ISO 13041-1 - TEST CONDITIONS FOR NUMERICALLY CONTROLLED TURNING MACHINES AND TURNING CENTRES - PART 1: GEOMETRIC TESTS FOR MACHINES WITH A HORIZONTAL WORKHOLDING SPINDLE |
| BS ISO 26303:2012 | Machine tools — Short-term capability evaluation of machining processes on metal-cutting machine tools |
| PD ISO/TR 16907:2015 | Machine tools. Numerical compensation of geometric errors |
| ISO 13041-2:2008 | Test conditions for numerically controlled turning machines and turning centres — Part 2: Geometric tests for machines with a vertical workholding spindle |
| ISO/TR 16907:2015 | Machine tools — Numerical compensation of geometric errors |
| ISO 10791-1:2015 | Test conditions for machining centres — Part 1: Geometric tests for machines with horizontal spindle (horizontal Z-axis) |
| ISO 3070-3:2007 | Machine tools — Test conditions for testing the accuracy of boring and milling machines with horizontal spindle — Part 3: Machines with movable column and movable table |
| BS ISO 1985:2015 | Machine tools. Test conditions for surface grinding machines with vertical grinding wheel spindle and reciprocating table. Testing of the accuracy |
| 14/30267668 DC : 0 | BS ISO 17543-1 - MACHINES TOOLS - TEST CONDITIONS FOR ACCESSORY SPINDLE HEADS - PART 1: HORIZONTAL SPINDLE MACHINES |
| BS ISO 230-1:2012 | Test code for machine tools Geometric accuracy of machines operating under no-load or quasi-static conditions |
| BS ISO 13041-3:2009 | Test conditions for numerically controlled turning machines and turning centres Geometric tests for machines with inverted vertical workholding spindles |
| ISO/TR 17243-1:2014 | Machine tool spindles — Evaluation of machine tool spindle vibrations by measurements on spindle housing — Part 1: Spindles with rolling element bearings and integral drives operating at speeds between 600 min-1 and 30 000 min-1 |
| 12/30241136 DC : 0 | BS ISO 10791-1 - TEST CONDITIONS FOR MACHINING CENTRES - PART 1: GEOMETRIC TESTS FOR MACHINES WITH HORIZONTAL SPINDLE (HORIZONTAL Z-AXIS) |
| ISO 13041-3:2009 | Test conditions for numerically controlled turning machines and turning centres — Part 3: Geometric tests for machines with inverted vertical workholding spindles |
| 14/30263478 DC : 0 | BS ISO 3070-2 - MACHINE TOOLS - TEST CONDITIONS FOR TESTING THE ACCURACY OF BORING AND MILLING MACHINES WITH HORIZONTAL SPINDLE - PART 2: MACHINES WITH MOVABLE COLUMN ALONG THE X-AXIS (FLOOR TYPE) |
| BS ISO 10791-1:2015 | Test conditions for machining centres Geometric tests for machines with horizontal spindle (horizontal Z-axis) |
| ISO 1985:2015 | Machine tools — Test conditions for surface grinding machines with vertical grinding wheel spindle and reciprocating table — Testing of the accuracy |
| ISO 10791-6:2014 | Test conditions for machining centres — Part 6: Accuracy of speeds and interpolations |
| ISO 26303:2012 | Machine tools — Short-term capability evaluation of machining processes on metal-cutting machine tools |
| UNE-ISO 13041-3:2011 | Test conditions for numerically controlled turning machines and turning centres -- Part 3: Geometric tests for machines with inverted vertical workholding spindles |
| UNE-ISO 13041-2:2011 | Test conditions for numerically controlled turning machines and turning centres -- Part 2: Geometric tests for machines with a vertical workholding spindle |
| UNE-ISO 230-1:2014 | Machine-tools. Test code for machine tools -- Part 1: Geometric accuracy of machines operating under no-load or quasi-static conditions |
| UNE-ISO 26303:2013 | Machine tools -- Short-term capability evaluation of machining processes on metal-cutting machine tools |
| UNE-ISO/TR 16907:2018 IN | Machine tools -- Numerical compensation of geometric errors |
| ISO 10791-6:2014 | Test conditions for machining centres — Part 6: Accuracy of speeds and interpolations |
| ISO 1940-1:2003 | Mechanical vibration — Balance quality requirements for rotors in a constant (rigid) state — Part 1: Specification and verification of balance tolerances |
| ISO/TR 230-9:2005 | Test code for machine tools — Part 9: Estimation of measurement uncertainty for machine tool tests according to series ISO 230, basic equations |
| ISO/TR 230-8:2010 | Test code for machine tools — Part 8: Vibrations |
| ISO 6103:2014 | Bonded abrasive products — Permissible unbalances of grinding wheels as delivered — Static testing |
| ISO 841:2001 | Industrial automation systems and integration — Numerical control of machines — Coordinate system and motion nomenclature |
| ISO 230-1:2012 | Test code for machine tools — Part 1: Geometric accuracy of machines operating under no-load or quasi-static conditions |
| ISO 230-3:2007 | Test code for machine tools — Part 3: Determination of thermal effects |
| ISO 13041-6:2009 | Test conditions for numerically controlled turning machines and turning centres — Part 6: Accuracy of a finished test piece |
| ISO 230-2:2014 | Test code for machine tools — Part 2: Determination of accuracy and repeatability of positioning of numerically controlled axes |
| ISO 230-5:2000 | Test code for machine tools — Part 5: Determination of the noise emission |
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