SU816781A1 - Crank-wedge press - Google Patents

Description

The invention relates to processing! metal pressure.

Known wedge crank press comprising direct coupled switching mechanism made in the form silovrgo cylinder and is pivotally connected thereto, the lever device associated with the wedge-crank actuating mechanism arranged on the frame and comprising a set direction ^{one-governing} wedge cooperating with it the slide , as well as leveling devices C1).

The disadvantage of the press is that it has a low reliability and productivity. 1

The purpose of the invention is to increase the reliability and performance of CA.

The stated goal is achieved by means of a crank-wedge press with a bracket with an axis, and a hinged device made in the form of two H-shaped links, the lower of which is placed on the axis of the bracket and equipped with a stop axis, at the end of which a gear is installed, while the rod of the power cylinder made in the form of a rack interacting with said gear.

te ^ provided with FIG. 1 shows a crank press, section; on. 2 is a section AA in FIG. 1; in FIG. 3 - section BB in FIG. 2.

In the frame 1, a receiving shaft 2 is mounted, rotating from the action of a flywheel 3 rigidly mounted on it, having a drive through a flexible connection 4 from the electric motor 5.

* The receiving shaft 2, through a gear 6 is connected to the crank shaft 7, the crank of which rotates in the upper knee 8 of the breaking rod, connected through the axis 9 with the lower knee 10 of the bursting rod, which through the axis 11 and the thrust plate 12 interacts with the wedge 13 of the actuator, installed in the guides of the frame 1 and the slider 14,

I and held in position by means of balancers 15. The hinged-lever device is made out of the range of the wedge actuator in the form of a breaking rod mounted on the axis 9, two links 16, in the lower part of each of which on the axis 17, from the inside of the link 16 , a strap 18 is located, connected at its opposite end 30 through the axis 19 with the bracket 20 of the bed 1. On the outside of each Even 16, a movable swinging link 21 is installed on the axis 17, interacting through the axis 22 with its middle part with the the upper part of the cheek of the lower composite H-shaped link 23 mounted movably on the axis 24 of the brackets 25 of the press frame 1.

Small-sized compact clutchless mechanism. the inclusion consists of a power cylinder 26, mounted cantilever on the frame arm 25, which swings on the axis 24, the lower composite H-link 23 of the articulated lever device, and the rod end 27 interacting with the spring end, spring-loaded spring 28. piston 29, with gear 30 mounted on osistopore 31 mounted movably in the hole in the center of the H-shaped link 23, consisting of two cheeks: the left cheek 32 and the right cheek 33. At the same time, in place of the stopper axis 31, which protrude on both sides of the cheeks 32 and 33 of the H-shaped link 23, special grooves are made 34, opposite to which in diameter of the part 35 of the osistopor, interact with special grooves 36 made in the lower part of two movable links 21 of the articulated lever device.

Crank wedge press works as follows.

The electric motor 5 mounted on the frame 1 drives the flywheel 3 and the receiving shaft 2 through a flexible connection 4 and then through the gear 6 communicates the rotational movement to the crank shaft Ί, the crank of which rotates in the hole of the upper knee 8 of the breaking rod.

With the right (Fig. D) position of the wedge 13 and the absence of agent supply (air or liquid) to the supra-piston part of the power cylinder 26, as a result of rotation of the crank shaft 7, oscillating movements of the upper track 8 and lower knee 10 of the breaking rod relative to axis 11 and the thrust bearing 12 of the fixed wedge 13. In this case, there is free movement of all links of the articulated lever device connected to the connecting rod; relative to each other and the axes 9 ^ 17,19,22,24 And 31 (idle links).

In this case, the special grooves 34 of the axis of the stopper 31 are in such a position under the action of the force of the spring 28 on the piston 29, so that the lower free ends of the swinging links 21 freely pass through the grooves 34 of the osistopor 31, and the slider 14 is in its highest position under the action of the balancers 15 , and therefore there is no movement from its original upper position.

In the upper position of the crank of the shaft 7, at the command of the command device, as a result of supplying the agent to the over-piston cavity of the power cylinder 26, the piston 29, which overcomes the force of the spring 28, moves with the rod-rack 27 to the left (Fig. 1) position. As a result of this, the rack end of the rod 27, acting on the gear 30, rotates the axis-stopper 31 to the required angle, as a result of which its parts 35, interacting with special grooves 36 of the links 21 (Fig. 3), fix them and thereby form rigid, fixed support of the axes 17 ,. 19, 22, 24 and 31 and links 18, 21 and the H-shaped link 23. Therefore, with further rotation of the shaft 7 under the action of the rotational movement of the pulley of the electric motor 5 and the flywheel 3, rigidly mounted on the receiving shaft 2, and the gear 6, the knee 8 and the bend 10 of the connecting rod, abutting through the axis 9, by means of two links 16 to a fixed support, consisting of axles and links of the hinged-lever device, produce, through the axis 11 and the bearing 12 of the connecting rod, the action on the wedge 13, which by its movement in the guides bed and slider to the left (Fig. 1), carries out pos upatelnoe 1'4 moving the slider to the lowest position and the discharge of the working operations.

Simultaneously with the movement of the slider, the moving parts of the balancers 15 move.

When moving the wedge 13 back to the right (Fig. 1), the latter by its action using the balancers 15 returns the slider 14 to its original position.

Next, the cycle repeats.

Claims (1)

1. USSR author's certificate No. 560763, cl. B 30 V 15/00, 1977. Y9 Fi & .1 ff 3 FIG. 2 .36