CS210352B1 - Equipment for ejecting moldings from multi-operation die dies - Google Patents

Abstract

A device for ejecting pressings from dies of multi-operation presses with ejection pins and ejection needles, which has a column mechanism fitted with a pull safety device inserted between a curved lever and a connecting rod, the centre of the curved lever being identical to the centre of the movable pin in the forward position of the ejection pin.

Description

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for ejecting moldings from the dies of multi-operation presses derived from a ram ram.

The prior art arrangement of ejectors for ejecting pressings from multi-operation presses is derived from the drive of the machine through a crank mechanism with a connecting rod that converts the rotary movement of the ejection shaft into a rocking movement of a plate-shaped lever. The plate-shaped lever is hinged to the draw bars, which transmit linear movement to the ejector. The ejector mandrels eject the stampings from the ram dies by means of sprung needles.

A disadvantage of the prior art device is the improper running of the ejector mandrel, which limits the time required for transferring the compacts from one operation to another. Another disadvantage is the existing method of securing all ejection operations with one common fuse.

These disadvantages are eliminated by the die ejection device of the dies of the multi-operation presses according to the invention, characterized in that a knee mechanism is formed between the curved lever and the connecting rod, consisting of an adjustable pin, rod, movable pin, connecting rod pin, ejector plate and pin. Furthermore, in each curved lever and in the lever there is a pulling fuse.

The main advantage of the new arrangement of the ejection of moldings from the dies of multi-operation presses is the reduction of the time required for the ejection of moldings and thus the time for transferring the moldings from one operation to another and the next operation.

A further advantage is the reduction of the instantaneous speed of the extrusion during ejection, which provides a prerequisite for easier gripping of the extrusion with the transfer collets. This extension of the time period for transferring the moldings and facilitating the gripping of the moldings with the transfer collets makes it possible to increase the number of moldings transported per time unit and the damping increases the performance of the multi-operation presses and thereby increases the productivity of the multi-operation presses. An equally important advantage is also that in the new arrangement of the device for ejecting moldings from the dies of multi-operation presses, each operation is protected separately. Further, the entire die ejection device of multi-operation presses can be used in both vertical and horizontal positions.

An example of an embodiment of the device according to the invention is shown in the drawings, wherein Fig. 1 shows a partial section of the ejector, Fig. 2 shows a view of the curved levers, Fig. 3 shows a plan view of the ejector; 5 depicts a graphical comparison of the course of the track as a function of time of the original and proposed configuration.

The movement of the entire die ejection device of the multi-operation presses is derived from the rotating crankshaft 2 of the drive, further transmitted by the connecting rod 2 via the connecting rod Sep to the knee mechanism formed by the ejector plate J and the rod. A pivoting movement 2 of the ejector plate J by means of the movable bolt 2 j ' induces a rocking movement of the curved lever 20 around the fixed bolt 2, wherein the transfer of force from the rods J to the curved lever 10 is effected by a set screw 11 and a set nut 12. 13 mounted on a pin provided with a traction 2S J® fuse 14. In the belt 13 is mounted a movable pin 16th ^nB which ^the rocking movement is converted to linear, provided with adjustment screw 17 and connected natioí adjustment IQ and other adjustment screw 22 and the pin ejector mandrel 20th Further, the linear movement is transmitted through the ejector mandrel 21 which, guided in the sleeve 24, strikes against the thrust needle 22 transmitting the movement of the ejector needle 23 which punches the die stampings.

The screw connection 21 »12 allows the ejection length to be adjusted to the required size. The constant forward position of the ejector needle is maintained by regulating the screw connection 21 ' 12 along a circular path of the curved lever 22 having a center of gravity in the axis of the movable pin g when the ejector mandrel 21 is at the forward extreme. position, which means that the moldings are ejected from the dies.

The device is secured against overloading by transmitting the force from the curved lever 10 to the movable pin 16 via a pulling fuse gg which breaks when the nominal force is exceeded, thereby allowing the lever 13 to swing around the pin 15 and interrupting the transfer of force to other members. mechanism.

The use of the new device results in a time saving which is evident from a comparison of the course of the old and the new arrangement. The dependence of the ejector needle travel 23 on the drive crankshaft rotation angle g is shown graphically in Fig. 5, where the path of the original configuration is denoted by index a and the path of the new configuration is denoted by index b.

The length of the ejection is determined by the length of the compact. This length corresponding to two different úhlyeí _and, turning a crank. In this case ^, there is always a time-saving effect for the mechanisms, which results in a higher machine output.

Claims (3)

An apparatus for ejecting die stampings of a multi-operation press, equipped with ejector pins and ejector needles, the movement of which in the stationary die provided with bushes is derived from the ram drive, the ejector pins being connected by adjusting bolts and adjusting nuts with curved levers, by providing a column mechanism equipped with an adjustable pin (8), a rod (7) between each curved lever (10) and the connecting rod (2) | movable pin (5), connecting rod pin (6), ejector plate (3) and pin (4). Device according to claim 1, characterized in that a pulling fuse (14) is provided in each curved lever (10), which is movably connected to the lever (13) of the respective knee mechanism. Device according to claim 1, characterized in that the center of curvature of each curved lever (10) is identical to the center of the movable pin (5) in the forward position of the respective ejector mandrel (21).