RU2745914C1 - Leverage mechanism of a press - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention relates to mechanical engineering and namely to the mechanisms of pressing used in pressure treatment of metals. The leverage mechanism of the press has a crank, a slider and two three-pair links. Each of the three-pair links is connected to a closing rod. The closing rod, which is connected to one of the three-pair links, is connected to the output supporting crank. The latter is made in the form of a three-pair link and is pivotally connected to the slider and to the other three-pair link. The output supporting crank, the slider, the aforementioned three-pair link and the closing rod connected with it form a quadrangular closed variable contour.

EFFECT: invention increases rigidity of the connection between the input and output links of the press mechanism.

1 cl, 1 dwg

Description

The invention relates to mechanical engineering, and in particular to pressing mechanisms used in the processing of metals by pressure.

Known six-link hinge-lever mechanism of the Chebyshev press (Artobolevsky II Mechanisms in modern technology, volume 1. - M, Nauka, 1970, p. 579), with a leading connecting rod, the complex movement of which is converted into a translational movement of the output link.

The disadvantage of such a press is the presence of a complex movement of the drive link, which makes it impossible to apply modern engines to it.

The closest in technical essence is the lever mechanism of the press (RU No. 2378118, IPC В30В 1/06, F16H 21/34, publ. 10.01.2010). The mechanism is made in the form of a kinematic chain containing a crank, a slider, two three-pair links and closing rods, which are symmetrically installed relative to the geometric axis of movement of the punch, while the slider, closing rods and two three-pair links form between themselves a pentagonal closed variable contour.

The disadvantage of such a press is that the two closing connecting rods transfer the entire load to the slider, which does not provide sufficient structural strength.

The technical problem solved by the present invention is to increase the rigidity of the connection between the input and output links.

The existing technical problem is solved by the fact that in the known lever mechanism of the press, which includes a crank, a slider, two three-pair links, each of which is connected to the closing connecting rod, according to the invention, the closing connecting rod connected to one of the three-pair links is connected to the output support crank, which is made in the form of a three-pair link and is pivotally connected to the slider and to another three-pair link with the formation with the slider mentioned by the other three-pair link and the closing link of the quadrangular closed variable contour connected to it.

The technical result, an increase in the rigidity of the connection between the input and output links, obtained using the invention, is achieved by transferring the pressing force through the closing connecting rod connected to the output support, made in the form of a three-pair link. At the same time, in the process of pressing, a decrease in the overload on individual links of the press is achieved by changing the rigidity of the transmission of motion with the provision of a self-aligning slider.

The lever press mechanism is shown in the drawing.

It consists of a crank 1 (Ο ₁ Α) connected to a drive motor (not shown), three three-pair links 2 (AVN), 3 (VSC) and 5 (GKF), two closing connecting rods 4 (HG) and 6 (CD) and slider 7.

The proposed mechanism works as follows.

With a full turn of the crank 1, through the three-pair links 2, 3 and 5, closing the connecting rods 4 and 6, transfers the movement to the slider 7, which, in turn, acts on the object being processed 8.

The efficiency of the proposed mechanism is proved on the basis of the well-known formula of Chebyshev P.L. (Artobolevsky I.I. Theory of mechanisms: a textbook for universities / I.I.Artobolevsky, M .: Science - 1967, p. 40).

W = 3n-2p ₅ ,

where W is the mobility of the mechanism, n is the number of moving links, p ₅ is the number of single-moving kinematic pairs.

In the proposed mechanism, n = 7, p ₅ = 10 and then W = 3⋅7-2⋅10 = 1, i.e. for a given movement of the crank, all other links will move quite definitely.

Claims (1)

The lever mechanism of the press, containing a crank, a slider, two three-pair links, each of which is connected to the closing connecting rod, characterized in that the closing connecting rod connected to one of the three-pair links is connected to the output support crank, which is made in the form of a three-pair link and is hingedly connected with a slider and with another three-pair link with the formation of a quadrangular closed variable contour with a slider, mentioned by the other three-pair link and connected to it by a closing connecting rod.

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