DE398132C - Cold nut press - Google Patents

Description

Cold nut press. The invention relates to a press for manufacturing of nuts by cold means.

There are nut hole presses known in which the hole punch at once pierces the workpiece to be punched. If the drive is done by a crank, is the cutting speed of the punch from the stroke and the number of revolutions dependent on the crank. There are also presses that use a camshaft instead of a crank and in which the retraction of the tool is carried out by a second cam disk will.

Also known are nut punching machines in which the punching is done in stages by two or three different stamps.

In the known cold nut presses with cam drive and With a single punch, the tool holder makes two feeds during a game of the same and two retreats of different sizes. During that, a feed is punched and at the same time a punched workpiece is doubled. With small retreats a hexagon die is set in place of the die in which the 'workpiece is formed by pressing into the nut, which happens during the second Hutres. With large retreats, all tools are withdrawn so far that the work bar can be advanced. After punching, the punch remains visible because it Bim Tool holder displaceably mounted: is; he is only involved in the great retreat withdrawn.

According to the invention there is a gradual punching by means of only one single punch instead, and the two feeds are made by a peculiar shape The cam slide is made of different sizes, in such a way that the hole punch at the small Stroke only partially penetrates the workpiece while he at the beginning of the long stroke the workpiece is completely perforated. For the hole punch significantly more favorable conditions arise because the time in which (read partial penetration occurs, which equates to the previous time for the entire punching. The stress on the hole punch is hereby much less, so that a more frequent There is no longer any need to be replaced. The power of the press will as a result, the number of revolutions of the cam disk shaft will be considerably higher can be increased.

In the drawing, Fig. I shows the cam disk shaft together with Your tool age of the press in the extreme position of the small stroke, in the Longitudinal section. Fig. 2 is a plan view of Fig. I, and Fig. 3 is the working diagram illustrated by the press.

A is the main cam disk seated on the drive shaft W , which is in contact with the main roller R seated on the tool holder B. T, T1 are the two retraction cams and LT are the retraction rollers which are in engagement therewith and which are mounted in the main slide B. Main cam A and main roller R as well as the retraction cams T, T1 and the retraction rollers LT are in constant contact. In addition to your do, the tool holder B carries the dimension a, the movably held punch C the cutting tool D. E is the punching die, F the die, P the hexagonal die and G the iron rod with a rectangular cross-section from which the nuts are to be pressed. H is a punched and cut nut workpiece that is doubled.

In order to bring about the above-identified press operation, the cam disk A has the shape shown in the drawing (Fig. I), in which the two cams A1 and AZ with their respective tips J and 31 are designed to be of different heights. - During one revolution of the cam disk shaft W in the direction of the arrow according to Fig. I, whereby the roller R always remains in contact with the cam disk A, the following conditions occur: J is the outermost point of the small stroke, M that of the large stroke. During: the small stroke by means of the cam A ", the punch has partially penetrated the iron rod G. While the roller R rolls over the circumference J to K (from the cam disk, the small retraction takes place. At K is the slide B receded that the person sitting on the A b -schneid'znesser D NIutternwerkstück is pushed out of the Döpperrnatrize F, so that the Sechskantznatrize P can be put in their place. the point K is located at the same height, ie, on the same circular arc S, As for point J. The punch makes a second movement as the cam disk K moves over L to M, your outermost point of the great stroke. On the distance K to L, it completely pierces the work rod by the distance b and pushes the slug out as soon as the cam disk has moved to I. In the further course of the rolling from point 11, the large retraction occurs, which has its extreme position at N. Here, the cutting knife is retracted so far en that the rod G can be guided past the tip of the knife and punched again. On the route N to 0, the first one pushes forward again and at 0 hits the rod G, which is prepunched during the cycle 0 to J, whereupon the game repeats. The angle α of the cam disk is therefore suitable for pre-punching and the angle a1 for the final punching.

Your working diagram (Fig. D.) Shows how the cam disc works A emerges even more clearly. The two horizontally hatched triangles c. cl the working sections during the hole ice, between which the hole punch is during the rotation of the cam disk from point J to K cool down again. can before he is completely the rod G perforated. The vertically hatched triangle shows the work performance when punching the previously used presses, with a significantly higher Stress on the punching tool results.

Claims (2)

PATENT CLAIMS: i. Cold trimming press with cam disk drive and gradual perforation of the workpiece, characterized in that the perforator (C) during a full non-rotation of the cam disk (A) initially only partially in the work bar (G) penetrates and after retreating and afterwards, the work bar is pushed forward completely perforated. 2. Cold nut press according to claim i, characterized in that that the two cams (Al and A2) of the cam disk (A) are so different in height are executed that with the small stroke of the holes (C) the work bar only partially and then completely perforated at the large bonnet.