Optics: measuring and testing – Material strain analysis – With polarized light
Reexamination Certificate
2001-09-10
2003-08-12
Stafira, Michael P. (Department: 2877)
Optics: measuring and testing
Material strain analysis
With polarized light
C356S032000, C356S035000
Reexamination Certificate
active
06606147
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to measuring method using photoelastic analysis for finding touching point between ball and track profile, in particular, to a measuring method for finding touching point between ball and track profile using a piece of photoelastic plate containing a semi-circular section.
2. Description of the Prior Art
In recent years, sliding motion is replaced by rolling or rotating motion in most of mechanical equipment for reducing frictional resistance and saving mechanical power as well. Among them devices such as ball screw, linear guide way and ball bearing are well known to people. In a rolling mechanism, the contact state between a ball and the track surface plays an important role on the working effect and quality of the rolling mechanism. Accordingly, measurement of the contact state of the two parts is not negligible.
Projection method and profile measurement method have been conventionally employed in mechanical engineering. The former is a method using a projector to project the image of a model ball having same size as a ball practically used in the machine that is placed on the track surface so as to observe the contact state between the model ball and the track surface and measure the angle formed between the center of the model ball and the touching point thereof. However, there is a practical shortcoming that only a vague image can be obtained owing to the fact the radius of the accurate cross section of the track is almost equal to that of the model ball, particularly in case of measuring a long linear guide way, difficulty in getting the focal point of the track profile line results in obtaining a vague track image, of course, exact touching point between the call and the track profile can not be determined.
The latter, in profile measurement method, the profile line of the track is measured by using a profile gage, and the touching point thereof is determined through computer evaluation. Meanwhile, ambient vibration and roughness of the track surface is almost equal to that of the model ball. In addition, the measuring point is vulnerable in case of encountering a part in the track surface with an abrupt change of curvature of the profile.
FIG. 6
is a schematic view illustrating equipment includes a measuring rod
1
and a measuring point
11
, as soon as the measuring point
11
has moved to the right along a track surface
21
of the measured object and reached the point A, the expensive point
11
might be broken by abrupt change of the profile thereat.
SUMMARY OF THE INVENTION
In order to cure the above depicted shortcomings, the present invention is to propose a newly developed measuring method using photoelastic analysis for finding touching point between ball and track profile.
In the present invention, a temporary birefringent material is used to form a photoelastic plate. The temporary birefringent material can divide an incident light into two mutually perpendicular polarized lights each passes through the object with a different speed. Some of originally optically monodirectional non-crystalloid are offered optical property as that of temporary birefringent material to divide an incident light into two mutually perpendicular polarized lights traveling through the object with different speeds when being exerted a force. After releasing the stress, the birefringent property thereof disappears. Such materials are conventionally employed in photoelastic analysis for simulating or measuring the amount and direction of stress applied on an object to be measured.
In the present invention, the photoelastic plate formed of such a temporary birefringent material is used to find touching point between the ball and the track profile. In order to simulate the contact state between the ball and track profile, a semicircular section is included in the photoelastic plate and the radius of the semi-circle is made equal to that of the ball. Furthermore, in order to evade inaccurate optical performance of the photoelastic plate arising from non-uniformity of thickness, thickness of the semi-circular section is made uniform. The birefringent phenomenon of the photoelastic plate under stress is observable by a common photoelastic measurement device. As an object is exerted by an concentrated force, the stress is greatest at the force exertion point, therefore, there can be observed a plurality of light stripes emerging outward from the stressed point. In the present invention, the maximum stressed point on the photoelastic plate, namely, the touching point between the ball and track profile can be found according to this principle. In this way, the method of the present invention does not have to directly observe the track profile of the actual track, in stead, the aim of finding the touching point thereof can be achieved by observing photometrically contrasted stripes appeared on the photoelastic plate. Accordingly, shortcoming of unabling to obtain a clear track profile in the conventional projection method is overcome as such.
In the meanwhile, in order to avoid errors arising from observing with naked eyes, the present inventor suggest using a digital camera or the like to pluck the image of the photoelastic plate and treat the same with the aid of a computer to determine the contact point between the photoelastic plate and the object under measurement.
Before determining the coordinate of the contact point (touching point), at first the plucked image shall be oriented at its position. In two-dimensional coordinate system adopted by the present invention, the two factors, the origin and the X axis direction shall at first be predetermined. Meanwhile, the center of the semi-circular segment of the photoelastic plate is selected as the origin, while the horizontal extension of the measuring device is selected as the X axis direction so that the entire unit of the image plucking equipment is settled on the photoelastic measuring device. By so, at the beginning of measuring work, the image plucking equipment is aligned to the horizontal extension of the measuring device so that the X axis direction of the image can be used as reference for finding the touching point without seeking for another X axis. Of course, if there is a clear profile of the object can be measured, it can be considered the reference X axis.
As for determination of the center of the semi-circular section, there are two methods can be used. First, marking the center before measurement, and then finding this mark on the image of the photoelastic plate. The advantage of this method is that the desired center can be promptly found out, and can be calibrated in advance, on the other hand, it is not easy to find out the center position accurately. The second method is selecting three points (or favorably more points) at random o the plucked image corresponding to the points on the profile of the semi-circular section so as to determine the center. By connecting the touching point with the center of the semi-circle, the inclined angle of the touching point with respect to the center can be obtained.
There exists a score between boundary of images produced by two adjacent objects with different hues. In the present invention, the boundary is exhibited by means of filtering intermediate value using a computer to compare hues of the two adjacent images. If the hues of the two images are analogues, it shows that no boundary exists therebetween. On the other hand, if the two hues are distinguishably different, the boundary must exist therebetween.
For facilitating finding the touching point of the photoelastic plate and the object under measurement with the aid of a computer, two valued method is employed in the present invention to distinguish the image of the photoelastic plate and that of the object under measurement. For this purpose, a relevant critical value is selected for cooperating the hues of the two images, the one darker than the critical value is black colored, while the other one brighter than the critical value is whit
Chen Yuan-Fang
Chiu Yuen-Ling
Barth Vincent P.
Hiwin Technologies Corp.
Rosenberg , Klein & Lee
Stafira Michael P.
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