SU1002865A1 - Eccentric mechanism balancing method - Google Patents

Description

(54) METHOD OF BALANCING EXCENTRIC

MECHANISM

The invention relates to methods for balancing rotating parts and can be applied in the balancing of eccentric mechanisms, for example, drives of machines for oriented friction. A known method of balancing a crank drive mechanism is that the balancing mechanism is set equal in magnitude to the balancing {vassing and angular rates of various directional directions 11 1 However, this method is applicable only for balancing forces inertia in reciprocating motion. The closest to the technical essence of the invention is a method of balancing an eccentric mechanism of double action with a concentric eccentric location, which means that on each eccentric, on the maximum eccentricity line, a balancing mass is set and one of them is fixed on the external eccentric. The second balancing mass is mixed in an arc of a circle at an angle equal to the angle of rotation of the internal eccentric 12. The disadvantage of this method is that when balancing, to move the balancing mass along the arc of a circle, a mechanical system is used that provides the desired trajectory of the balance weight along the arc of a circle, which complicates the balancing process. The purpose of the invention is to simplify the balancing process. The goal is achieved by the method of balancing the eccentric mechanism of double action g with a concentric arrangement of eccentrics, which means that a balancing mass is established on each eccentric on the maximum eccentricity line, one of which is fixed on the external eccentric, the balance mass on the internal eccentric is fixed at a distance from its axis exceeding double eccentricity. The drawing shows a diagram of the eccentric mechanism. The method of balancing the axioid excisive mechanism with the commercial arrangement of eccentrics 1 and 2 consists in the following. The unbalanced mass 3 is located in the center of the circle Oj. Both eccentrics 1 and 2, having the same eccentricities, rotate partly at the same time with the same angular velocity relative to the center circumferential / O. At this, unbalanced mass 3 creates a centrifugal force Cj relative to the center of the circle. Equally hanging this centrifugal force, for example, with the maximum total eccentricity, on the line of its action are two balancing masses. The mass 4 is fixed on the outer eccentric 1, and the mass 5 is fixed on the inner eccentric 2 at a distance exceeding its double eccentricity, while the centrifugal force C of mass 4 is greater than the centrifugal force Cr of mass 5, but in total they are equal to the centrifugal force Ca. When the eccentrics are turned over at some angle, the center of the circle Oj is located along the arc of a circle around the axis of Ol at the same angle. The total eccentricity, equal to the segment 0, 0, is reduced in magnitude, and in the direction it is turned relative to its original position. With a known value of the counterbalancing mass and the radius of its rotation, the ratio of counterbalancing masses and radixes of their rotation is chosen such that as the eccentrics turn, the resulting vector t of the centrifugal forces of the counterbalancing masses 4 and 5 is always equal to the centrifugal force of the counterbalanced mass When reducing the total eccentricity 0, O j to zero, the balancing masses 4 and 5 occupy a diametrically opposite position, and their centrifugal forces become reciprocated me the same. Thus, due to the fixing of the balancing mass on the inner eccentric at a distance twice as high as its eccentricity, the process of balancing the eccentric mechanisms of double action due to the absence of displacements of the balancing masses is greatly simplified. Formula of the invention. The method of balancing the eccentric mechanism of double action with a condenser arrangement of eccentrics, which means that on each eccentric on the line of maximum eccentricity, the balancing mass is set, and it is fixed on the external eccentric, which differs from simplifying the sa balancing process, the balancing mass on the inner eccentric is fixed at a distance from its axis, which exceeds the double eccentricity. Sources of information taken into account in the examination 1. Kozhevnikov S, N. Theory of Mechanisms and Machines. M ,, Mechanical Engineering, 1973, p. 572-575. 2. USSR author's certificate fe 288369, cl. U 01 M 1/38, 1970 (prototype).

Claims (1)

Claim The method of balancing the double-acting eccentric mechanism with the eccentric arrangement of the eccentrics, which consists in the fact that each eccentric has a balancing mass on the maximum eccentricity line, one is fixed on an external eccentric, characterized in that, with a simplification circuit, the balancing process balances the mass by the internal eccentric is fixed at a distance from its axis in excess of double eccentricity.