Measuring and testing – Instrument proving or calibrating – Displacement – motion – distance – or position
Reexamination Certificate
2002-01-28
2004-08-31
Raevis, Robert (Department: 2856)
Measuring and testing
Instrument proving or calibrating
Displacement, motion, distance, or position
Reexamination Certificate
active
06782730
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a testing master block so called an interim testing artifact for inspection or correction of the accuracy of a measuring apparatus such as a three dimensional measuring machine so called a coordinate measuring machine.
DESCRIPTION OF THE RELATED ART
In the past, for the measurement of the dimensions of machine parts such as automobile engines or transmission cases, the measuring apparatus such as coordinate measuring machines, which measure dimensions by bringing the front end of a probe into contact with a measured object set on a measurement table (bed), have been used generally.
This type of measuring apparatus is maintained in accuracy of measurement by using a measurement master finished to a high accuracy to periodically inspect the accuracy or correct measurement error.
The measurement master is provided with a reference measurement plane to which a probe of the measuring apparatus may be brought into contact. By comparing the actually measured data of the reference measurement plane obtained by the measuring apparatus with a reference value, it is possible to inspect or correct the accuracy of the measuring apparatus.
As this type of measurement master proposed in the past, there is for example the measurement master disclosed in Japanese Unexamined Patent Publication (Kokai) No. 11-44527. Measurement hole members are provided respectively at the four corners of each of the top surfaces, one of the side surfaces and the front surface of a cubic hollow box made of cast iron.
Each of these reference hole members is shaped as a cylinder provided with a flange at one end and is bolted to the box with the flange. Further, the inner surface of the cylindrical portion is shaped as a circular hole finished to a high accuracy and forms a reference hole for measurement.
Further, in the master measuring apparatus disclosed-in Japanese Unexamined Patent Publication (Kokai) No. 4-160301, rods formed of a glass material with a coefficient of linear expansion of a value of about 0 are assembled into a grid and fastened to the outside of a cube-shaped or box-shaped hollow support block comprised of a low expansion material. The two end surfaces of the rods form the reference measurement planes, and at least three balls formed by a glass material etc. for setting reference coordinates are attached to the top surface of the support block.
In the inspection master disclosed in the above mentioned Japanese Unexamined Patent Publication (Kokai) No. 11-44527, since the reference hole members are attached to a hollow box made of cast iron, if a portion of the cast iron box expands or contracts due to a change of the ambient temperature, the distance or angle between the reference hole members changes slightly and it will be caused some defects on the inspection accuracy.
Further, in the master measuring apparatus disclosed in Japanese Unexamined Patent Publication (Kokai) No. 4-160301, by using glass material having a linear expansion coefficient of a value of about 0 for rods having two end surfaces as reference measurement planes or balls for setting the coordinates, it is being attempted that the inspection accuracy is improved by holding minimum expansion or contraction of the rods or balls themselves due to a change of the ambient temperature.
However, since the rods or balls are supported by a cast iron box, there are some problems that changes in the dimensions of the parts or warping of the shape of the box due to temperature changes of the box gives a bad influence on the inspection accuracy, the structure becomes complicated and the cost of manufacturing becomes higher.
DISCLOSURE OF THE INVENTION
An objective of the present invention is to provide a testing master block and manufacturing method of the same able to solve the above problems in the prior art and obtain high inspection accuracy by eliminating, as much as possible the effects due to changes in ambient temperature.
To achieve the above objective, the first aspect of the testing master block of the present invention is characterized by being provided with a hollow box-shaped block body with at least a top surface and four side surfaces comprised of quartz glass or single crystal quartz rectangular plates and a plurality of reference members each fastened by insertion to a plurality of mounting holes formed in the top surface and side surfaces of the block body and each having a reference measurement plane to which the front end of a probe of a measuring apparatus may be brought into contact.
Note that the term “rectangular” as used in this specification includes “square” and the term “box-shaped” includes a “cube”.
The second aspect of the testing master block of the present invention is characterized by being provided with a hollow cylindrical block body comprised of a side surface of a quartz glass or single crystal quartz cylindrical tube and at least a top surface of a quartz glass or single crystal quartz disk and a plurality of reference members each fastened by insertion to a plurality of mounting holes formed in the top surface and side surface of the block body and each having a reference measurement plane to which the front end of a probe of a measuring apparatus may be brought into contact.
The third aspect of the testing master block of the present invention is characterized by being provided with a block body having at least a top surface and side surfaces and fabricated by being cut out from a single piece of quartz glass or single crystal quartz and a plurality of reference members each fastened by insertion to a plurality of mounting holes formed in the top surface and side surface of the block body and each having a reference measurement plane to which the front end of a probe of a measuring apparatus may be brought into contact.
In the first to third aspects of the testing master block, a reference member comprised of a ceramic ball with a surface serving as a reference measurement plane and a bushing holding the ceramic ball and fastened by insertion into a mounting hole of the block body may be used.
The first aspect of a manufacturing method of a testing master block of the present invention is characterized by comprising a first step of forming mounting holes at predetermined positions of rectangular plates comprised of quartz glass or single crystal quartz, a second step of forming at least a top surface and four side surfaces of a hollow box-shaped block body by joining a plurality of quartz glass or single crystal quartz rectangular plates so that the rectangular plates formed with the mounting holes in the previous step are positioned at least atone of the four side surfaces and the top surface, and a third step of fastening reference members to which the front end of a probe of a measuring apparatus may be brought into contact by insertion into the mounting holes after the second step.
The second aspect of the manufacturing method of a testing master block of the present invention is characterized by comprising a first step of forming mounting holes at predetermined positions of a quartz glass or single crystal quartz disk and a quartz glass or single crystal quartz cylindrical tube, a second step of forming a hollow cylindrical block body by joining a disk formed with mounting holes at the previous step to at least the top surface of the cylindrical tube, and a third step of fastening reference members to which the front end of a probe of a measuring apparatus may be brought into contact by insertion into the mounting holes after the second step.
A third aspect of the manufacturing method of a testing master block of the present invention is characterized by comprising a first step of cutting out a block body having at least a top surface and side surfaces from a single piece of quartz glass or single crystal quartz, a second step of forming mounting holes at predetermined positions of the top surface and side surfaces of the block body formed at the first step, and a third step of fastening reference members to which a front end of a pr
Asanuma Giken Co., Ltd.
Browdy and Neimark , P.L.L.C.
Raevis Robert
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