SU85367A1 - Method for measuring large diameters along a circular arc - Google Patents

Description

The known methods for measuring large diameters along an arc of a circle are based on the measurement of an arrow corresponding to the selected chord of this part of the arc of a circle. Instruments operating on this principle do not provide the size of the diameter to be measured as a result of a direct reading on the gauge of the instrument, but require additional counts for this.

The described method allows the measurement of large diameters with sufficient accuracy, immediately obtaining the result of measuring this diameter directly on the scales of the instrument.

FIG. 1 shows a circuit for measuring the diameter of a circle along its arc; pas figs. 2 — Indicator instrument for measuring large diameters along a circular arc; in fig. 3 is a cross section along AL of FIG. 2

The proposed method for measuring large diameters along an arc of a circle is based on measuring the length / secant carried out at a given angle p to the diametrical straight line from the point of intersection of the diametric line with the measured circle to the point of intersection of this section with the circle. As the diameters of the measuring circle (see, etc.) increase, the line connecting the center of the measured circumference and the point from the intersection of the section with the circle moves parallel to itself at an angle of y to the diametrical straight line. The change in the length / secant of the radius R of the circle is determined by the value D /. Solving the right angle triangles of the axis, OiCib2 and Ciec, we obtain the expression for the magnitude A /

, 7С17 / | / -cosa (Dg- /,),

at the same time (p-90 °),

where p is the angle, the value of which is specified in the measurement.

The co-structuring of a device for measuring large diameters in this method is based on measuring the length / secant or, rather, its increment D / by moving

M 85367- 2 forward ac contact nipifta i /. The basis of the measurement is the point G lying on the non-section; diametrical straight line with the measured circle where the second stationary contact of the device is established.

The device consists of a short-circuit of the housing equipped with a bracket / which, by means of a spring-loaded movable frame 2 with two spherical supports 3, is fixedly mounted on the measured cylindrical surface so that the contact 4 of the device is on the base diametrical straight line at the point of its intersection with the circle. A cylindrical guide 5 is fastened to the device case, intended for mixing the measuring carriage 6 in the plane of installation of the device. The guide is made rotatable relative to the housing of the device on axis 7 and for precise setting of the angle of rotation in accordance with the chosen angle of inclination, the secant is equipped with a worm mounting mechanism 8. On the measuring carriage 6 a contact shun 10 with a spherical contact d is placed. The contact probe interacts with the indicator fixed on the carriage //, registering the deviation of the contact d from the secant direct - ac. The carriage 6 is moved along the guide by means of a micrometer screw 12, equipped with an additional driven micrometric screw mechanism 13.

For reading the size of the measured diameter, the value of which is proportional to the amount of carriage movement per length / along the sectioning line, there are three buttons on the device: the button / on the guide 5, the scale // on the pusy limb 14 of the worm gear 13 and the scale // The indicator on the indicator 11. The size of the diameter to be measured is defined as the sum of readings on the chords, /, // and ///.

The device is calculated over several intervals of measured diameters, in this case four intervals: from 1000 mm to 2000 mm, from 2UOO mm to 4000 mm, from 4000 mm to 8000 mm and from 8000 mm to 10,000 lsh. For each interval of diameters, the angle p of the installation of the guide device is chosen, the total limit of regulation of which B of this design is equal to ± 6 °, and the device is supplied with individual slots with different division points.

Thus, for use of the instrument in four intervals of diameters, each of the instrument chambers consists of four parallel P1kal. The magnitude of the intervals of the measured diameters within one click is determined by the magnitude of the working stroke of the measuring carriage 6 along the guide 5. In the described device design, the stroke of the carriage is 100 mm.

Prevention Invention

Claims (5)

1. A method for measuring large diameters along an arc of a circle, characterized in that the diameter of a given circle is determined by the distance between the intersection point of the circle with the diametrical straight line and the intersection point of the circle with the secant drawn from the first point at a selected angle to the diametrical straight line. 2. An indicator device for carrying out the method according to claim 1, based on two supports along the diametrical plane of the product, characterized in that, in order to effect the movement of the indicator contact plate along the section slope of the selected inclination, to determine the length of the section between the points of its intersection with the circle, the contact the indicator pin is placed outside the base supports on the carriage, moving in a given direction. . An embodiment of the device according to claim 2, characterized in that, in order to set the angle of movement of the carriage relative to the base diameter plane, the carriage guide is made rotatable in the plane of installation of the device. 4. The form of the device according to PP. 2 and 3, characterized in that a micrometer screw with an additional worm gear is used to ensure high accuracy of the reference of the carriage movement. 5. Acceptance of use of the device according to PP. 2, 3 and 4, from the fact that the size of the measured diameter is read as the sum of the readings on the longitudinal scale of the carriage movement, the vernier of the micrometer screw and the indicator scale. Phie.1  M section FIG. 2 1 P fj J & f L2