RU2799869C1 - Device for measuring deviations in the arrangement of planes relative to the center of the outer spherical surface - Google Patents

Abstract

FIELD: measuring technology.

SUBSTANCE: invention can be used to measure the relative position of the planes and the outer spherical surface. The device comprises a base, a base element with base prisms arranged to form a common bisector plane, a main indicator with a measuring tip, an additional indicator with a measuring rod, a bracket, a carriage placed on the bracket adapted for translational movement, an orienting prism fixed on the carriage, the main and additional arresters mounted on the indicators, and the main and additional cams fixed on the orienting prism. Both indicators are fixed on the base element, and their measuring tip and rod are placed with their axes in the common bisector plane of the base prisms and are located coaxially at a given reach and symmetrically relative to the bisector plane of the orienting prism and adapted for interaction with the measured planes. The orienting prism is placed between the base prisms and is perpendicular to its bisector plane to the common bisector plane of the base prisms and adapted for interaction with its working surfaces with the outer spherical surface of the measurement object. The main arrester is configured for interacting with its lever with the main cam and the measuring tip, and the additional arrester is configured for interacting with its lever with the additional cam and measuring rod.

EFFECT: improved device performance.

1 cl, 2 dwg

Description

The invention relates to measuring technology and can be used in mechanical engineering mainly for measuring distances and symmetry of planes relative to the center of the outer spherical surface of the part.

A device is known for measuring deviations in the location of the planes relative to the center of the outer spherical surface, containing a base placed on the base of the basing element with two basing prisms arranged to form a common bisector plane, fixed on the base of the bracket mounted on the bracket with the possibility of translational movement of the carriage with an orienting prism located between the basing prisms perpendicular to its bisector plane to the common bisector plane of the basing prisms and with the ability to interact with their working surfaces with the outer spherical surface of the measurement object , fixed on the base element, the main indicator with a measuring rod, fixed on the orienting prism, an additional indicator with a measuring rod, moreover, the measuring rods of the indicators are placed with their axes in the common bisector plane of the basing prisms perpendicular to the bisector plane of the orienting prism and are located at the same given outreach relative to the bisector plane of the mentioned prism with the possibility of interaction of each measuring rod with one of the measured planes of the measurement object (RU 2726294. Bull. No. 19. 2020).

However, in the known device, fixing an additional indicator on the orienting prism leads to the fact that there is an error in the positioning of the said indicator when approaching the measurement object due to deviations in the diameter of the spherical surface. In addition, the force pressure of the orienting prism on the object of measurement for its displacement to the measuring rod of the additional indicator leads to a distortion of the movable carriage and the said indicator. These factors reduce the measurement accuracy of the specified device. In this case, the sequential execution of the inputs of the measuring rod of the main indicator and the orienting prism, as well as their taps, reduce the measurement performance of the known device.

To measure the deviations of the location of the planes relative to the center of the outer spherical surface, a device is known, illustratively disclosed in (RU 2761425. Bull. No. 34. 2021) and containing a base, a base element placed on the base with two base prisms arranged to form a common bisector plane, a bracket fixed on the base, mounted on the bracket with the possibility of translational movement of the carriage with an orienting prism located perpendicular to its bisector plane with the possibility of interaction by their working surfaces with the outer spherical surface of the object of measurement, the main indicator with a measuring tip and an additional indicator with a measuring rod fixed on the basic element, moreover, the measuring tip and the rod are located with their axes in the common bisector plane of the basing prisms perpendicular to the bisector plane of the orienting prism and are placed coaxially to each other and at an equally given reach relative to the bisector plane of the mentioned prism with the possibility of interaction of each of them from one of the measured planes of the measurement object.

However, fixing an additional indicator on the base element leads to the need to retract the measuring rod of the said indicator for impact-free installation of the measurement object, and after such installation, its supply. At the same time, the mentioned inlet and outlet are not combined with either the inlet and outlet of the measuring tip of the main indicator, or with the inlet and outlet of the basing prism. Similarly, the movements of the said prism and the measuring tip of the main indicator are not aligned with each other. This reduces the performance of the device.

The problem is the development of a device for measuring deviations in the location of the planes relative to the center of the outer spherical surface, in which the inputs of the measuring rod and the tip will be combined with the input of the orienting prism, as well as the taps of the mentioned structural elements.

The technical result is an increase in productivity by equipping the device with arresters and cams, as well as their connections with each other, with an orienting prism and with indicators.

The solution to the problem and the technical result are achieved by the fact that the device for measuring deviations in the location of the planes relative to the center of the outer spherical surface contains a base, a base element placed on the base with two base prisms arranged to form a common bisector plane, a bracket fixed on the base, a carriage mounted on the bracket with the possibility of translational movement of a carriage with an orienting prism located between the base prisms perpendicular to its bisector plane to the common bisector plane of the base prisms and with the possibility of interacting with its working surfaces with by the outer spherical surface of the measurement object, the main indicator with a measuring tip and an additional indicator with a measuring rod fixed on the base element, wherein the measuring tip and the rod are located with their axes in the common bisector plane of the basing prisms perpendicular to the bisector plane of the orienting prism and are placed coaxially to each other and at the same given reach relative to the bisector plane of the mentioned prism with the possibility of interaction of each of them with one of the measured planes of the measurement object. According to the invention, it is equipped with main and additional cams, main and additional arresters, wherein said cams are fixed on the orienting prism and are located to each other on opposite sides relative to the bisector plane of said prism, the main arrester is fixed on the main indicator with the possibility of interacting with its lever with the main cam and the measuring tip, and the additional arrester is fixed on the additional indicator with the possibility of interacting with its lever with the additional cam and measuring rod.

The presence in the proposed device of arresters, cams and their connections with indicators and an orienting prism, as well as their interaction with each other, allows the measuring tip and rod to be brought in after the installation of the measurement object, aligning such a supply with the orientation of the said object and, thus, to increase productivity. In addition, the mentioned structural elements and their connections provide alignment between the tips of the tip and the rod, as well as the combination of these taps with the tap of the orienting prism, which also leads to an increase in the performance of the device.

In FIG. 1 shows a general view of the device, front view; in fig. 2 - view A in Fig. 1.

The device comprises a base 1 on which a base element 2 is installed with two base prisms 3 and 4 arranged to form a common bisector plane Z-Z, a bracket 5 fixed on the base 1, a carriage 6 placed on the bracket 5 with the possibility of translational movement, an orienting prism 7 fixed on the carriage 6, located between the base prisms 3 and 4 perpendicular to its bisector plane O-O to the common bisector the Z-Z planes of the basing prisms 3 and 4 and with the possibility of interacting with their working surfaces 8 and 9 with the outer spherical surface 10 of the measurement object 11, the main 12 and additional 13 indicators fixed on the basing element 2 on opposite sides of the bisector plane O-O of the orienting prism 7 and located coaxially with their measuring tip 14 and the rod 15 and at the same given reach relative to the said plane, as well as placed axes mi X-X and Y-Y, respectively, of their measuring tip 14 and rod 15 in a common bisector plane Z-Z of the base prisms 3 and 4 with the possibility of interaction of the said tip and rod with the measured planes 16 and 17, respectively. The device also contains the main 18 and additional 19 arresters installed respectively on indicators 12 and 13, and the main 20 and additional 21 cams fixed on the orienting prism 7. rod 15.

The device is configured according to the exemplary part. At the same time, indicators 12 and 13 are set to zero.

The device works as follows.

При измерении устанавливают объект измерения 11 цилиндрическими поверхностями 26 и 27 на базирующие призмы 3 и 4 базирующего элемента 2. Ориентируют объект измерения 11 вдоль общей биссекторной плоскости ZZ путем перемещения каретки 6 с ориентирующей призмой 7 по кронштейну 5, добиваясь прилегания рабочих поверхностей 8 и 9 вышеупомянутой призмы с наружной сферической поверхностью 10 объекта измерения 11. При подводе ориентирующей призмы 7 основной 20 и дополнительный 21 кулачки, опускаясь, выходят из взаимодействия с плечами 22 и 23 рычагов соответствующих арретиров 18 и 19. Упомянутые рычаги, поворачиваясь на осях, не воздействуют плечами 24 и 25 на соответствующие измерительные наконечник 14 и стержень 15. Упомянутые наконечник и стержень, приближаясь к объекту измерения 11, взаимодействуют с соответствующими измеряемыми плоскостями 16 и 17. После этого снимают показания: Δ ₁ - на основном индикаторе 12, Δ ₂ - на дополнительном индикаторе 13. Определяют отклонения от настроенного значения расстояния от измеряемых плоскостей 16 и 17 до центра наружной сферической поверхности 10 по показаниям Δ ₁ и Δ ₂ , а по их полуразности - отклонение от симметричности этих плоскостей относительно упомянутого центра. When raising the orienting prism 7, the main 20 and 21 additional cams, acting on the corresponding shoulders 22 and 23 of the levers of the arresters 18 and 19, turn them. In this case, the arms 24 and 25 of the mentioned levers divert the measuring tip 14 and the rod 15 from the object of measurement 11. This is how the input and output of the mentioned tips and the rod are combined with the input and output of the orienting prism 7.

Thus, the performance of the device is increased when measuring the parameters of the location of the planes relative to the center of the sphere: distances and symmetry.

The device can be used at machine-building enterprises when measuring parts that contain requirements for the relative position of structural elements in the form of planes and spheres.

Claims (1)

A device for measuring deviations of the arrangement of planes relative to the center of the outer spherical surface, containing a base, a base element placed on the base with two base prisms arranged to form a common bisector plane, a bracket mounted on the base, a carriage mounted on the bracket with the possibility of translational movement, a carriage with an orienting prism located between the base prisms perpendicular to its bisector plane to the common bisector plane of the base prisms and with the possibility of interacting with their working surfaces with the outer spherical surface of the measurement object, fixed the main indicator with a measuring tip and an additional indicator with a measuring rod mounted on the base element, wherein the measuring tip and the rod are located with their axes in the common bisector plane of the basing prisms perpendicular to the bisector plane of the orienting prism and are placed coaxially to each other and at the same given reach relative to the bisector plane of the mentioned prism with the possibility of interaction of each of them with one of the measured planes of the measurement object, characterized in that it is equipped with main and additional cams, main and additional arresters, wherein said cams are fixed on the orienting prism and are located to each other on opposite sides relative to the bisector plane of said prism, the main arrester is fixed on the main indicator with the possibility of interacting with its lever with the main cam and the measuring tip, and the additional arrester is fixed on the additional indicator with the possibility of interacting with its lever with the additional cam and measuring rod.

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