RU1820205C - Method of checking linearity of objects - Google Patents

Abstract

The invention relates to measuring technique and can be used to control non-linear bone. Purpose , ". inventions - improving the accuracy of control performance. At. for the technical control of geometric parameters of equipment such as wet self-grinding mills (MMS) during its installation, theodolite 2 is installed on the initial fixed point 1 of the mill axis, and a ruler 4 is installed horizontally on the final fixed point 3 of the same axis, so that its plane is perpendicular to the named axis, and the central division of its scale coincides with the final fixed point 3. Then, orient the vertical collimation plane 5 of the viewing tube / theodolite 6 along the axis of the shallows Itza, then sequentially to each of the proxy calibrated bores 7. In this case the lower Paulus to about th of eating

Description

spheres of bearings of the trunnions of the mills, set the ball 8 (for example, steel), then the vertical collimation plane 5 of the telescope 6 of theodolite 2 is guided onto the ball 8. Next, without changing the azimuthal position

the telescope 6, transfer it to the ruler 4 and take the vertical collimation plane 5 of the telescope 6 readout on the scale of the ruler 4, then calculate the linear deviation of the verified bore 7 from the axis of the mill. 1 ill.

The invention relates to measuring technique, is intended to control the straightness of objects, mainly boring.

The invention solves the technical problem of increasing control performance.

The drawing shows the layout of the calibrated equipment, ruler and theodolite. L

An example of the method during technical control of geometric parameters in equipment such as wet self-grinding mills (MMS) during installation.

Theodolite 2 is installed on the initial fixed point 1 of the mill axis, and a ruler 4 is horizontally installed on the final fixed point 3 of the axis, with its plane perpendicular to this axis, and the central division of its scale coincides with the final fixed point 3. Then theodolite 2 is oriented in this way so that its vertical collimation axis is parallel to the axis of the bore. Next, a ball 8, for example, steel, which is used as a target block, is installed in each of the verified bores 7 (in this example, the lower hemispheres of the support bearings of the trunnions of the mills) in series. The vertical collimation axis 5 of the telescope 6 of theodolite 2 is guided onto the ball 8. Then, without changing the azimuthal position of the theodolite telescope, transfer it to line 4 and measure the distance from the theodolite to each of the specified cross sections of the bore and from the theodolite to the line, and the deviation is determined by the dependence

L l (Ai-Ao),

where AO - the reference on the line corresponding to the base value;

. . AI - reading on the line taken by theodolite:

L is the distance from the theodolite to the ruler;

I is the distance from the theodolite to a given section of the bore.

FORMULA AND SECTION

A method for controlling the straightness of an object, mainly a bore, in which the theodolite and a ruler are installed at the specified points of the bore, the theodolite is oriented so that its vertical collimation axis is parallel to the bore axis, the sighting unit is rearranged in the given sections of the bores, and the target is sequentially guided theodolite on the target block and take readings, which are different in that, in order to increase the control performance, using the ruler, set the reference base, use the ball as the target block, le-pointing sequential theodolite to bulb suggestive ton Theodolite on line was measured and the distance 1 from the theodolite to each of predetermined sections and the bore distance L, from the theodolite to the ruler, and the deviation value D is determined depending on

A (Ai-Ao) / L,

where AO is the reading on the ruler corresponding to the base value,

AI - reading on a ruler taken by a theodolite ..