SU323633A1 - Test method of the device to control the helix - Google Patents

Description

The invention relates to the field of measurement technology, in particular to the measurement of linear-standard quantities.

Known methods for checking instruments for monitoring a helix are as follows: i4TO uses a sample, a working tool that reconstructs a helix, with a measuring unit and a registering device using a TI1M device. With this method of verification, an exact manufactured part with an exemplary screw surface certified with a higher accuracy than the accuracy of the instrument being tested is required. However, the manufacture and certification of such parts is difficult, and most often for precision instruments it is generally impossible.

The proposed method differs from the known ones in that an end cam with one or several protrusions in the axial direction is used as a sample, with which the device is set to move along the calculated helix, is moved by the measuring unit when the cam is rotated to discrete values equal to or multiples of the screw. on which the device is configured. This makes it possible to increase the accuracy of testing without the use of parts with an exemplary screw surface.

FIG. 1 to 1, one of the possible diagrams of the device for checking the helix is shown; “And FIG. 2 - the curve characterizing the total error of the device.

The device has a spindle and a tailstock (in drawing, not shown) with centers / and 2, to base the part to be monitored. In order to reproduce the phantom line in the device, the slider rotates the part and moves with it in the axial direction. In order to test the proposed method, the measuring unit with the carriage 3 of the device must move along the center axis and 2. The measuring unit, made, for example, (In 1 view of the lever 4 with the measuring tip iKOM 5 acting on the reading head or sensor 6, is connected to a recording device (not shown in the drawing.) An additional readout is also installed on the carriage 3 (Head 7, the tip of which contacts the end gauge block 8 based on the stop 9 fixed on the instrument case.

The method of testing the instrument is carried out by the following jubilee.

In the centers / and 2 install the sample 10 in the form of a mandrel with an end cam having projections from the end. The measuring tip 5 is brought into contact with the end face of the sample 10. At the same time, an arbitrary block of terminal measures is mounted on the support 9, according to which the reading head 7 is zeroed. The device is tuned to the nominal value of the screw line. After this

include an instrument for testing, by rotating and moving the sample 10 axially in movement of the protruding point A of the sample. Since the rotation and displacement of the torda occurs at low speed, after passing through the end point through the block point L, the end measures are replaced by another one, differing from the first one by the magnitude of the helix shaft, on which the device is moved, and carriage € measuring unit on the value of this chat. The movement can also be carried out on an optical or other reading device, and including automatically, after the tip has passed point A.

If the device has an error, the measuring instrument will receive an additional shift oo compared to the fact that it had an initial reading of the point L. This verification process is repeated as many times as the instrument is designed.

As a result of the check, the recorder draws a curve consisting of several jumps. The difference in the position of the points on the record characterizes the error in the relative position of the measuring tip and the cam protrusion in a linear value, i.e. the error of the instrument.

The proposed method can be used for setting the instruments to the “nominal value of a rifle line.

Subject invention

A METHOD for checking a device to control a helix, which consists in using a sample, a working tool that recreates a helix, with a measuring unit

and a recording device, characterized in that, in order to increase accuracy and simplify the verification, an end cam with one or several protrusions is used as a sample. In the axial direction,

which set the movement on the device according to the calculated helix, move the measuring unit when turning the cam to discrete values equal to or multiples of the helix pitch the device is tuned to.