SU45073A1 - Device for measuring small linear dimensions - Google Patents

Description

In some cases, very precise verification of tolerances in the linear dimensions of parts or their markings is necessary. The use of conventional mechanical measuring instruments with calipers, micrometers and gauges is not always possible due to their insufficient sensitivity, or due to their structural unsuitability for this type of measurement.

The proposed device makes it possible with very high accuracy to determine the deviations in dimensions for very large ratios of size to tolerance of order and height.

The drawing shows a diagram of the proposed device.

In front of the measured part 4, two lenses / and 2 are installed so that each of them projects onto screen 3 only one of the points or faces, the distance between which is applied to the measurement. The distance between the object and the screen and the focal lengths of the lenses are chosen so that with sufficient compactness of the entire device to obtain the maximum magnification. By measuring the distance between the corresponding points of the part images on the screen, the part is removed and another one is installed in its place,

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subject to comparison with the first. In the event of a difference in size between the parts, the distance between the measured points of the image on the screen will change by the amount of the product of the difference in the sizes of the parts by the linear increase. At the same time, the distance between the obtained points of the images on the screen, since they are designed by independent lenses, does not depend on the selected magnification, but is determined by the position of the lenses. Due to this, it is achieved that the sensitivity of the device significantly increases without any noticeable change in the nominal value of the measured size.

If, for example, it is required to check a series of identical parts 4 having a length of 50 lglg with a tolerance of .001 l and. The part 4 is illuminated by the light source 5. The lenses 7 and 2 are set against the corresponding points of the part, the distance between which is to be measured. Measure the distance between the projections of these points on screen 3. Now, if the first part is replaced by the second, then its length, a, is projected on the screen as an image of length b. Calculating the value

D6 1- & 2 and zn increase, as it can be seen

:

; From the drawing, you can determine the deviation of the size of the second part

D6

Yes. Assume that the linear increase is equal to m 100.

Thus, instead of measuring a 50 mm with an instrument having a sensitivity of 0.001 mm, the application of the method described requires measuring the same 50 mm with a measuring instrument with a sensitivity of only 0.1 mm.

Similarly, measurements can be made between risks or protrusions in detail. It is also possible to simultaneously measure several conjugate sizes.

The subject matter of the invention.

A device for measuring the difference in linear dimensions, characterized by the use of two independent objects / and 2, giving on the screen 3 images of the ends of the object 4, subjected to a rejection of linear dimensions.