SU1028461A1 - Circular-motion table - Google Patents

Abstract

CIRCULAR MOTION TABLE, including a face plate driven by the mechanism of parallel motion, which is made in the form of an eccentric fluid, cranks with eccentricity, equal to the eccentricity of the carrier, and the plate with borings on the periphery, assigned values. for eccentric surfaces of the cranks of the carrier, from one side to another, so that, in order to increase the accuracy of rotation of the plate, the table is equipped with an additional plate with borings on the periphery, and: the cranks and carrier are made with additional eccentric surfaces turned relative to the main ones by 90, with the additional plate being installed by means of bores on additional eccentric surfaces of the cranks and lips.

Description

The invention relates to a machine tool industry, in particular to rotary tables for continuous operation of CNC machines. Circular motion tables are known, which include a plate, drive the mecanism of plane-parallel motion, which is made in the form of an eccentric carrier, curves with an eccentricity equal to the eccentricity of the carrier, and plates with boring holes on the periphery, designed for eccentric surfaces of crypins and flj. However, well-known tables are characterized by insufficient accuracy of rotation of the faceplate, especially in the places of the dead points of the mechanism of plane-parallel movement. The purpose of the invention is to improve the accuracy of rotation of the faceplate. This goal is achieved by the fact that in the table with a plane-parallel movement mechanism, made in the form of an eccentric carrier, cryopes with an eccentricity equal to the eccentricity of the carrier, and a plate with borings on the periphery, intended for the eccentric surfaces of the cranks and the carrier, an additional plate with borings is inserted on the periphery, and the curved puller and the carrier are fitted with an additional eccentric surface, which is turned relatively to the main one at 90, and an additional plate is installed by means of bores on additional eccentric surfaces of the cree (bolts and carrier). This arrangement of the table improves the accuracy of rotation of the faceplate, since the dead points at the joints of the main plate and the additional plate are cranked and driven by 90. The table shows a longitudinal section; 2 is the same, a section behind the plan, and Fig. 3 is a view A in Fig. 1, in Fig. 4 a table with a plane-parallel mechanism for movement in a planetary gear reducer. The circular motion table contains body i, in which axial and radial guide plates 2 are mounted, a planetary wave transmission and a plane-parallel movement mechanism. The transfer from the central wheel 3, the eccentric carrier 4 and the flexible wheel 5 associated with the faceplate 2 and the size of the HHoro is coaxial with the latter. The plane-parallel motion mechanism includes a carrier 4, parallel cranks 6 associated with it, the eccentricity of which is equal to the eccentricity of the carrier 4, the mechanism also contains a plate 7 with borings on the periphery in which the eccentric parts of the carrier 4 and cranks 6 are located. The central wheel 3. is mounted stationary in housing 1. A plate 8 is placed in Plate 7, which interacts with wheel 5, ensuring its engagement with wheel 3. The carrier 4 is connected to the electric motor 9 by means of a worm gear 10. Vodapo 4 and cranks 6 are made with Additional eccentric surfaces, respectively, 11 and 12, which are rigidly connected to the main surfaces and deployed on relatively basic surfaces, and their eccentricity is larger than the main eccentricity. Additional eccentric surfaces 11 and 12 of the carrier 4 and cranks b are installed in the points of the additional plate 13. Another variant of the table with the mechanism of plane-parallel vision in the drive is the use of a planetary gear reducer in which the plate 7 is equipped with an internal Wheel 14 The rotational movement of the carrier 4 is formed in rotation of the faceplate 2 relative to the stationary table body 1 by means of a wheel 14 interacting with the wheel 15 rigidly connected with the faceplate 2 and mounted coaxially ice 4, the eccentric surfaces of the carrier 4 and cranks 6 are conventionally depicted in the same plane. The work of the circular motion table is carried out in the following manner. The motor 9 transmits rotation to VD11lu 4 through a worm gear 10. When rotating sopfina 4, the eccentric surfaces of the carrier 4 and cranks b interact with the bores of plates 7 and 13, while there is a plane-parallel | movement in a circle whose radius is equal to the eccentricity of the main and additional eccentric surfaces. The bridgehead 8 makes a plane-parallel movement with the PLATE, 7, deforms the flexible wheels 5 so that the point of engagement of the wheels 3 and 5 makes one revolution per Turn of the carrier 4. This causes the wheel 5 to rotate in accordance with the gear ratio of the planetary gear. When the wheel 5 rotates, the faceplate 2 simultaneously rotates. The proposed design of the device allows to reduce the height of the table, increase its load capacity, the accuracy of machining parts and thereby expand the technological capabilities of the machine,

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Claims (1)

CIRCULAR TABLE,. including a faceplate driven by a plane-parallel motion mechanism, which is made in the form of an eccentric carrier, cranks with an eccentricity equal to the carrier eccentricity, and plates with bores along the periphery intended for eccentric surfaces of the carrier cranks, a person * *. In order to increase the accuracy of rotation of the faceplate, the table is equipped with an additional plate with bores on the periphery, and the cranks and carrier are made with additional eccentric surfaces, turned 90 ° relative to the main ones, with an additional plate By means of boring eccentric, an additional surface of cranks and carrier was installed. l SU _n „1028461>