SU659404A1 - Mechanical press for drawing hollow articles - Google Patents

Description

one

The invention relates to press manufacturing, in particular, to deep-drawing equipment.

A mechanical press for drawing hollow articles is known, comprising a bed on which a table is mounted, an actuator that communicates movement to a working slider located in the upper part of the bed, and a slider kinematically associated with the working slider and placed in the press table.

However, the known mechanical press is not fast enough.

The purpose of the invention is to increase the speed of the press.

This goal is achieved by the fact that the kinematic connection between the sliders is carried out by means of a rack mounted on the working slide, a gear tester mounted on it, mounted on a crankshaft connected to the slide located in the press table, a ratchet with a ratchet wheel mounted on a crank shaft, which is lined with a locking mechanism made in the form of a cam mounted on a crankshaft shaft and having a socket on the lateral surface of a spring-loaded retainer interacting with the cam socket, and the spring-loaded pusher interacting with one end with the retainer and the other with the working slider. The gear rail is spring-loaded from the side of the working slide, and the gear bar and the cam are spaced apart at the ends of the crank shaft.

FIG. 1 shows the proposed mechanical press (before the start of the stretching process), general view; in fig. 2 - locking mechanism (section A-A in Fig. 1).

The mechanical press contains a bed 1, in the guides of which (no position indicated) a working slide 2 is mounted with a drive mechanism (not shown) and a kinematically associated slide 3 placed in the press table 4. The working creeper is fixed to it by a spring-loaded toothed rack 5, which is meshed with the gear gear 6 mounted on the crankshaft 7, through the connecting rod 8 and connected to the slider 3. A ratchet wheel 9 and a cam 10 are fixed to the crank shaft 7 . The locking mechanism (see Fig. 2) is also placed in the press table and contains a cam 10, on the side surface of which a slot 11 is made for a spring-loaded clamp 12. The cam also has a concentric groove 13. There are two rollers 14 on the clamp,

interacting with the cam 10, as well as the roller 15, which interacts with the spring-loaded pusher 16, interacting with the working slide.

Toothed brush 6 and the cam 10 is fixed in the supporting necks of the crank shaft 7.

Before the start of the press operation, the working slide 2 and the slider placed in the press table are in the extreme upper position, the latter being fixed by a stopper mechanism. The workpiece is put on the punch in such a way that the meledu end of the punch and its bottom remain a small gap (see Fig. 1). When the press is turned on, the working slide will move down. At an angle of rotation of the drive crank shaft 15-20 °, the punch will come into contact with the workpiece and the drawing process will begin. The speed of the slider at the time of the start of the drawing process is 4–5 times less than that of the conventional drawing scheme, that is, when it starts at the angles of rotation of the crank shaft al; 90 °. When the slider is moved downward, the cogwheel rail 5 moves along with it, which drives the cogwheel 6 to rotate. Since the crank shaft 7 is locked at this moment, the ratchet wheel 9 is activated and the cogwheel slides freely downwards. At the end of the working stroke of the slider 2, the latter presses the end of the pusher 16, which, overcoming the spring resistance, goes down and acts on the roller 15 with its bevel. The latch 12 is mixed to the left, comes out of the slot on the side surface of the cam 10 and thus releases the slider 3 placed in the press table.

After the end of the stretching, the working slide 2 will reach its extreme lower position and will start moving upwards together with the spring-loaded gear rack 5, which through the gear teeth 6 and the ratchet wheel 9 will rotate the crank shaft 7 and thereby inform the down movement of the slide mounted in the press table . In this case, the finished part is removed from the tool, which is thrown through a special window in the slider (not shown in the drawings) into the receiving tray under the press. When moving the working slide 2 upwards, the interaction with the spring-loaded pusher 16 stops. The latter stops in the extreme upper position and its bevel stops interacting with the roller-15. The latch 12 rushes towards the cam 10, but the latter has turned by some time by this time two rollers 14 lock. The lock is in an intermediate position. At the approach of the slider, placed in the press table, to the extreme upper position, the latch rollers 14 will fall on

the smaller diameter of the cam 10 and in the extreme upper position of the slide placed in the press table, the retainer will enter the slot And on the side surface of the cam 10.

When the slider placed in the press table reaches the lowest position, the feeder feed mechanism (not shown in the drawings) is triggered and the next workpiece from the feeder tray through

the window enters the matrix and is oriented there.

At this point, the working crawl continues to move upwards and with the help of the toothed rack 5, the crawler placed in the press table also rises upwards. A blank in the die is put on the punch. Both sliders reach their extreme upper position and the slide placed in the press table is fixed

in this position the locking mechanism. The cycle then automatically repeats.

The proposed design of the press allows you to use almost the entire course of the working

slide down and, therefore, on the press, you can stretch the product about one and a half times longer compared to a conventional Krivoschipny press having the same stroke length. Besides,

In the proposed press, the stretching process starts at a very low speed, i.e., almost unstressed, therefore, the number of press strokes can be increased by 2.5–3 times without serious consequences (and in some cases

more), without fear of going beyond the limits of the speed acceptable for the moment of the start of drawing. At the same time, dynamic loads in the power units of the drive and the press frame are reduced by a factor of 2-3, which will positively affect the durability of its work.

Claims (4)

1. A mechanical press for stretching hollow articles containing a frame on which a table is mounted, an actuator that communicates the movement of a working slider located in the upper part of the frame, and a slider kinematically associated with a worker and placed in the table of a press characterized in that, in order to increase the speed of the press, the kinematic connection between the sliders was carried out using a rack mounted on a working ram meshed with a gear gear mounted on a crank shaft, bearing rod, connected with a ram located in the press table, a ratchet mechanism with a scrap wheel mounted on a crank shaft equipped with a stopper mechanism. 2. Mechanical press according to claim 1, characterized in that the locking mechanism made in the form of a cam attached to crank shaft and having a socket on the side surface of a spring-loaded retainer that interacts with the cam socket, and a spring-loaded pusher that interacts at one end with the retainer, and the other with the working slider. 3. Mechanical press on PP. 1 and 2, characterized in that the rack gear is spring-loaded from the side of the working slide. 4. Mechanical press on PP. 1-3, characterized in that the barbed teeth and cam are spaced apart at the ends of the curved shaft.