SU789283A1 - Mechanical press bed and method of tightening same - Google Patents

Description

one

The invention relates to the processing of metals by pressure, in particular to the beds of mechanical presses.

A bed of a mechanical press is known, containing hollow traverse and a table, which are threaded with studs and nuts.

A known method of tightening a bed consists in creating in its elements prestressing and compressive stresses by tightening the nuts of tightening straps 1.

A disadvantage of the known construction and method lies in the possibility of stresses arising from tightening, which act only in the vertical direction — parallel to the axes of the tie-in lugs and, thus, cannot counteract the directed horizontal stresses in the cross bar and the table, resulting from their bending by spreading technological forces during shtampovka, therefore, to reduce the level of these stresses and increase the bearing capacity and rigidity of the bed, it is often necessary to increase metal consumption Be the table and traverse.

The purpose of the invention is to increase the reliability and rigidity of the press by creating, when tightening the frame, bending moments, which counteract the bending that occurs at the time of application of technological loads.

This goal is achieved by the fact that the bed of a mechanical press, containing hollow traverse and table being strung through racks with nuts, is equipped with pairs of wedges placed one coaxially with each of the studs on the outer surfaces of the traverse and the table, and the other is fixed with the ability to interact with the nut, while on the inner side surfaces of the 5 t x crosshead and the table there are stops that are in contact with the spikes, and the wedge is made with a tilt angle that is greater than the friction angle.

Claims (3)

In addition, due to the method of tightening the bed, consisting in the creation of Denmark in its elements of prestressing and compressive stresses by tightening the nuts of clamping bolts, in addition, in the table and the traverse of the press, horizontal bending stresses opposite in sign voltages occurring at the time of application of the process load. The drawing shows schematically the construction of a composite bed of a mechanical press using the proposed pulling method. The integral press frame consists of yoke 1, table 2, pillars 3 and 4, which are assembled into a single rigid frame by means of tension studs 5 and nuts 8 and 9 screwed onto their threaded ends 6 and 7. The outer horizontal surfaces of yoke 1 and table 2 have the protrusions 10 and 11, respectively, with inclined bearing surfaces HI and Hg, the angles of inclination to the horizontal plane di and da are greater than the friction friction angle for steel J3. Under the nuts 8 and 9, there are oblique washers 12 and 13, the inclined surfaces of which interact with the supporting surfaces HI and HZ and have the same angles of inclination to the horizontal cti and ag. In the wells 14, the traverse 1 and the wells 15 of the table 2, on the vertical walls 16 and 17, rigid lugs 18 and 19 are installed, which interact with clamping pins 5. The lugs 10, the lugs 18 and 19 are spaced from the lugs 11 at distances xio, hte and hi9 respectively. When the bed is tightened by this method, the tie rod 5 is stretched by the pulling force P, while on the surface HI of each protrusion 10 of the crosspiece 1 a vertical force PI equal to P and directed downward and a horizontal force R is created. the axis of symmetry of the frame and equal to R Ptg (oi (-j), and on the surface Hg of each protrusion 11 of table 2, a vertical force Pa, equal to P and directed upwards, and a horizontal force f, which is directed to the vertical axis of symmetry of the frame and equal to Fj PtgU2 -p) Tensioning pins 5 exert pressure on rigid stops 18 and 19 with horizontal forces Ri, 8 and Ri9 with oppositely directed forces F (and FI, respectively, the values of the forces are equal to R, 8 -I JlorJliiPL.tii) (9 AND R jTiaIf 5 bJjil i5. t - -1 ECIM IS- big way, the traverse 1 is affected by bending moments M | equal to M Ri8 (hto-hig) and directed clockwise to the left of the front axis of symmetry of the bed, while to the right of the front axis of symmetry of the bed direction moments M (counter. On table 2, there are bending moments MZ equal to Mz Ri9-hi9 and directed counter-clockwise with tracks to the left of the frontal axis of symmetry of the frame, and to the right in the opposite direction. From the bending moments Mi and Mg in traverse 1 and table 2, additional horizontal stresses appear, which are opposite to the stresses that arise during punching due to bending of the traverse 1 Table 2 by the spacer effort of the RShSCh– level of the total horizontal stresses and vertical deformations (deflections) decreases. In this way, an increase in the carrying capacity and rigidity of the bed is achieved without increasing the metal intensity of its most massive parts — crosshead 1 and table 2. Claim 1. Mechanical press base containing hollow core bars and the table through racks with nuts and without increasing metal intensity traverse and table, characterized in that, in order to increase the reliability and rigidity of the press by creating during the tightening of the frame, bending moments, counteracting the bending that occurs at the moment of application technological loads, it is provided with pairs of wedges placed coaxially with each of the studs on the outer surfaces of the crosshead and the table, one of which is fixed, and the other is installed with the ability to interact with the nut, while the stops on the inner side surfaces studs. 2. A stanina according to claim 1, characterized in that the wedges are made with a tilt angle greater than the friction angle. 3. The method of tightening the bed according to claim 1, which consists in creating in its elements the prestressing and compressive stresses by tightening the nuts of tightening studs, characterized in that in the table and the traverse of the press they additionally create horizontal bending stresses opposite in respect to the sign of the voltage arising at the time of application of the technological load. Sources of information taken into account in the examination 1. Lansky EI, Bunkerov A. N. Elements for the calculation of parts and components of crank presses. M., “Mechanical Engineering, I960, p. 333, Fig. 173.