DE440430C - Drawbench for pipes with alternating increasing and decreasing wall thickness - Google Patents

Description

Drawbench for pipes with alternately increasing and decreasing wall thickness. The invention relates to a drawing bench for the production of pipes of constant Outside diameter, where d: e wall thickness alternately increases and decreases in order to by Cut the pipe apart to get the same pipe parts, their wall thickness according to inside to either increase or decrease.

It has already been proposed to change the wall thickness by doing this to create that the mandrel protruding into. The drawing die during the drawing pulls back more or less for a certain period of time and back into the die lets enter. This back and forth movement of the mandrel has to be achieved by means of cams sought-which are taken from the pulling carriage be: m pulling and a longitudinal displacement of the mandrel opposite to the direction of pull. For each pipe part with variable wall thickness, a cam may be provided which extends in the longitudinal direction the drawbench is adjustable in order to change the mutual spacing of the wall reinforcements to allow, on which the length of the pipe parts depends. The arrangement of a Plural. of cams makes the design of the drive device for the mandrel intricate, and the setting of these cams when the mutual distance changes the wall reinforcement requires a great deal of work and time.

According to the invention, these disadvantages are eliminated in that the longitudinal displacement of the mandrel by means of a cam. Done during the pulling according to the mutual spacing of the wall reinforcements acts repeatedly on the mandrel. at this type of drive device for the mandrel can be used for any Number of successive wall reinforcements with a single cam from and if the mutual spacing of the reinforcements is changed, it is only necessary the number of strokes of the cam during the pulling process. to enlarge or to zoom out. For this purpose, a speed change gear is advantageous in the drive of the cam switched on. Each speed level then corresponds to a very specific mutual one Distance between the wall reinforcements and thus the overall length of the pipe parts. Also is as a result secured the use of a single cam for a plurality of pipe parts, that all pipe parts are exactly the same.

The design of the drive device is particularly easy to fold for the mandrel when using a revolving cam disk that is connected to the Mandrel connected double lever acts. .

In the drawing is an embodiment of the draw bench according to the invention shown.

Fig. I shows the side view with the drive device rear part of the drawbench equipped for the mandrel. Fig. A is the floor plan of fig. i. Fig. 3 shows the rear quill bracket in view, Fig. 4 the front Die block in section with the mandrel on a larger scale. Fig. 5 is a longitudinal section through a drawn pipe.

The drawing iron i is in a known manner on the bracket z of the frame 3 of the Drawbench attached, and the mandrel q. protrudes into the drawing die i.

The mandrel rod 6 ends in a shaft 7 which is mounted in a bracket 8 so as to be longitudinally displaceable and at the end has a threaded part 9 onto which a nut can be screwed. Between the bracket 8 and the nut io, a sleeve ii is mounted on the shaft 7 and is provided with protruding bolts iz on both sides. On the block 8 13 double levers are mounted by means of bearing blocks, which can swing about the axis 14. The shorter arms 15 of these double levers engage with claws 16 behind the bolts 12, while the longer arms 17 are provided at the free end with stop cams 1 8 , which interact with rotating cams ig.

The cams ig are fastened at the same angle with their hubs zo on a shaft 22 mounted in brackets zr, which is set in rotation by means of the bevel gears 23, 24 by a shaft 25. The shaft is driven by means of the interchangeable gears z6, z7 from a shaft 29 mounted along the frame 13 of the draw bench in brackets 28.

In the vicinity of the drawing iron i is a speed change gear 3o, z. B. a Nortonge drive, built in with a larger number of speed levels. The driven shaft of this gearbox is shaft 29, which is driving. Shaft 31 of the transmission can be connected by a claw clutch 3a, 33 to a shaft 34, which is driven by the main drive of the draw bench.

Between the bracket 8 and a collar 35 of the shaft 7 is a compression spring 36 switched on.

While the pipe 37 to be drawn, grasped by the not shown drawing carriage of the bank, is pulled through the drawing iron i, the camshaft 22 is driven from the shaft 34 via the change gear 3o. Meet the cams, the mandrel 4. opposed by the claws 1 6 moved to the drawing direction, so i pulled 1g to the curves of the double levers i8 i5, i7 from the -Öffnung of the threading die. As a result, the mandrel goes back from the position illustrated in Fig. 4 to the right, with the result that the reduction in the wall thickness of the pipe stops and this retains its original wall thickness. During this movement of the tube, the compression spring 36 is tensioned at the same time. If the cams ig exceed the position shown in Fig. 3 with dashed lines, in which they release the curves 1 8 of the double lever, the mandrel 4 is returned to its initial position by the friction on the tube 37 and by the compression spring 36 , so enters the opening of the drawing iron. This again results in a corresponding reduction in the wall thickness of the tube 37.

With each revolution of the cocci i 9 there is an increase and decrease in the wall thickness of the tube 37. B. revolve five times, one obtains five identical pipe parts a or a1, the walls of which have a reinforcement b in the middle or at the ends. Depending on the time that the mandrel is in the drawing iron or outside it at a certain drawing speed, the thicker part of the tube becomes shorter or longer. The lengths of the pipe parts a, a1 can be adjusted as precisely as desired by adjusting the change gear 3o or by exchanging the wheels a6, z7 or by both. With the aid of the change gear 3o and the change gears 26, 27 it is thus possible to produce a larger number of specific tubular profiles optionally without any breaks in operation. The profiling of the cams i9 allows you to gradually or suddenly increase the wall thickness and then decrease it again.

Instead of a revolving cam, it is of course also possible to use a straight line back and forth moving cam tracks are used to drive the mandrel. The drive can also the cam path from any power source independent of the drive of the Z # «: ehbank take place.

Claims (1)

PATLNT CLAIM: i. Drawing bench for pipes of constant outer diameter with alternately increasing and decreasing wall thickness, in which the mandrel is displaced longitudinally by means of cams opposite to the drawing direction, characterized in that the longitudinal displacement of the mandrel (4) takes place by means of a cam (ig), which during the Pulling in accordance with the mutual spacing of the wall reinforcements (b) acts repeatedly on the mandrel. z. Draw bench according to claim i, characterized in that a speed change gear (3o, 26, 27) is switched into the drive (34, 2g, 25, 2z) of the cam (i9). 3. Drawbench according to claim i, characterized by a circumferential cam disk (2o, i9) which acts on a double lever (i5, 17) connected to the mandrel (4).