SU617295A1 - Mechanical press work-performing mechanism - Google Patents

Description

one

The invention relates to the field of metal forming, in particular, to the design of a drive for mechanical presses.

A mechanical press actuator is known, comprising a slider mounted in the bed guides, a lever-hinge system connecting the slider with a driving crank, and also a switch-on unit in the form of a stanin link and a lever-hinge system of the power cylinder and a fuse against overloads 1.

The disadvantage of this system is low labor productivity.

The aim of the invention is to increase productivity by increasing the number of moves.

This is achieved by the fact that the actuator is equipped with a lever that is hinged on the frame, which connects the power cylinder and the lever-hinge system, while the latter is made of knee-knee bar. The drawing shows a kinematic diagram of the actuator of a mechanical press.

Mechanical tension actuator includes rotating crankshaft 1 non-intermittently while operating the press, which is connected with the help of hinged

links 2-4 with a slider 5, located in the bore of the bed 6 and interacting with springs 7, which play the role of a slider balancing rod. The uppermost position of the slide 5 is limited by the stops 8. The lever 9 is mounted on the frame 6 and connected by a joint L with link 4 and joint C with the stem 10 of the power cylinder 11. Cylinder I is connected with the support 12 freely installed in the frame 6 and spring loaded with a pre-compressed spring 13 by means of a cover 14. The axis of movement of the slide 5 is located deaxially with respect to the axis of swing of the lever 9.

The press works as follows. When the slider 5 is in the upper position and the shaft 1 rotates continuously with the crank shaft, the link 3 oscillates relative to the point Bi along the trajectory, and the lever 9 moves relative to the point O along the path AI-AZ. The rod 10 makes a reciprocating movement relative to the cylinder 11.

In order to make a sliding stroke and position the hinge A near the position Ld, compressed air is supplied to the rod end of the cylinder 11, as a result of which the piston is fixed in the extreme

position, and the lever 9 in position.

defined by dot AZ. Further, the link 4 makes a swinging movement along the trajectory, and the slider makes a reciprocating movement along the trajectory of BI-82. As a result, the axis of movement of the slider 5 is located deaxially with respect to the swing axis of the lever 9, link 4 in the lowest position of the slider will also be at an angle to the lever 9, which will allow drying of the force on the slider at the entire angle of rotation of the crank shaft during which the technological operation is performed, including the extreme lower position of the slider 5.

If during the execution of the technological operation the force exceeds the allowable, the cylinder support I will shift to the right, compressing the spring 13, which will allow the crank shaft 1 to pass the right position without further increasing the force.

To turn off the press during the course of the slide 5 up the rod cavity of the power cylinder I is connected with the atmosphere, and the slide 5 is fixed in the extreme upper position by the springs 7 and the stop 8, and the hinge A moves from the position L to the position L1 and subsequently oscillates, determined traced by AI-AS ,. In the period hightly of the slider 5 in the extreme position, the piston of the cylinder 11 makes a movement between the extreme left

and extreme pr.avym position. This circumstance plays a decisive role in the speed of the control system, because the extreme right condition is derived from the continuous movement of the links of the press actuator and the activation process consists of timely admission of the working medium to prevent the piston from going backwards from right to left.

Claims (1)

1. USSR author's certificate No. 465054, cl. In Call 15/14, 1972.