EP0446499A1 - Method of lowering the drawing speed of drum drawing machines - Google Patents

Abstract

The invention relates to a method for automatically lowering the drawing speed of drum drawing machines for pipes or the like before the drawing end of a pipe length, wherein each of a plurality of pipe lengths drawn one after the other is collected after a pull through the drawing tool in a receiving basket, which in each case step by step after the drawing of the other pipe lengths is transported to a discharge station, from where a further one of several pulling processes taking place in the same sequence is initiated. In order to develop a method and a device for automatically lowering the drawing speed of drum drawing machines, which can be activated in a simple manner by the operator during the first move of each drawing game and then is no longer changed for the subsequent moves of this drawing game proposed that the length of the drawn tube of each tube length in circulation is measured and registered during the first train, that during the second train of the first tube length the pulling speed is manually lowered towards the end of the train and the length of the tube pulled up to the time of lowering is measured and registered that from the difference of the measured value from the first train and the measured value of the second train, a coefficient is calculated as a measure of the lengthening of the pipe and the current tool condition, from which the lowering points for the drawing speed of the subsequent second trains of the following pipe length n can be calculated. <IMAGE>

Description

The invention relates to a method for automatically lowering the drawing speed of drum drawing machines for pipes or the like before the drawing end of a tube bundle, each of a plurality of tube bundles drawn in succession after a pull through the drawing tool being collected in a receiving basket, which in each case gradually after the tube bundle has been drawn into a discharge station is transported, from where another of several pulling processes that are carried out in the same order is initiated.

Continuous drum drawing machines for pipes are often known under the name Spinner-Block. The pulling force in these drum drawing machines is applied by friction over five to ten pipe turns on the drum with the support of non-driven pressure rollers, the rising pipe turns continuously pushing down the turns sitting on the drum.

Arranged below the drawing drum is a container which is referred to as a receiving basket and is dimensioned such that the largest possible weights of the bobbins can be taken up in one length even with the smallest drawn tube dimensions.

Pipes are reduced in several passes, for example based on the dimensions 55 x 2.5 mm and a unit weight of 300 kg to 6 x 0.35 mm. The pipes are 5,450 m long. After each train, the pick-up basket with a full length of pipe is transported from its position below the drawing drum to the discharge station, from where the pipe end is fed as the new pipe start to the next train of the drawing drum, while a new free pick-up basket is brought below the drawing drum into the pick-up station . As a rule, several, about six to seven, baskets are on the way and are fed to the drawing drum one after the other.

If there are only a few turns left in the drain basket of the drain station, the pulling speed must be reduced, on the one hand so that the last tube turns do not swing back and forth in the drain basket uncontrollably and the pipe end would whip out of the basket and on the other hand so that the relief shock that arises when the pipe end leaves the drawing ring and the drawing force collapses, is greatly reduced. The maximum achievable drawing speed is currently 1,200 m / min. A reduction of this drawing speed at the end of the train to approx. 60 m / min. is imperative.

In conventional systems, the lowering of the drive speed when only a certain number of turns are left in the drain basket is carried out by the operator, who has to observe the turns lying in the drain basket by means of one or more mirrors. If there are only a few turns left in the basket, he presses the slow-down button to reduce the speed. The remaining turns are then drawn at the reduced speed for the reasons mentioned above. This activity occupies the operator over part of the drawing time so that he cannot carry out other work.

The demand to automate the continuous drum drawing process has led to considerations of counting the turns falling into the receiving basket and recording them in a computer with a storage register. When this basket is again in the sequence station during the next drawing sequence, the falling turns are registered again by the computer and the drawing speed is reduced when a certain number of turns have fallen into the basket. The difference to the total number of turns is the number of turns that should be in the drain basket when braking. However, the computer must divide the number of turns by the lengthening that occurs when the tube is reduced in the drawing tool. Other influencing factors that cannot be taken into account in this method are the pipe weights per meter, which fluctuate within permissible limits and which depend on the condition of the drawing tools. Different pipe weights result in different pipe lengths and number of turns after the train. Assuming weight fluctuations of plus / minus 5% and a nominal length of 5,000 m, the deviations plus / minus would be 250 m. If these possible errors are taken into account by programming the computer to the smallest possible number of turns, an additional 500 m are drawn with a reduced drawing speed when the maximum pipe length occurs. The average drawing speed is thus greatly reduced and the drawing time extended accordingly. The cost of pulling increases.

Another known method proposes to mark several turns of the tube behind the drawing ring by means of paint spraying. On the next train, this mark is recognized by sensors and used as a signal to reduce the speed of the drawing drum drive. This method takes advantage of the fact that the beginning of the pipe falling into the receiving basket becomes the end of the pipe on the next train. This method has so far not been successful in practice because there are no suitable marking colors on the market that guarantee the optical identification of the pipe end section.

Based on the problems described, the present invention has for its object to develop a method and an apparatus for automatically lowering the drawing speed of drum drawing machines, which can be easily activated by the operator on the first move of each drawing game and then for the other moves of this draw game are no longer changed.

To achieve the object, the method according to the characterizing part of the patent claim is proposed.

The method therefore suggests recording the pipe lengths during the first draws of all the pipe bundles and comparing them with the extension of the first pipe bundle after the second train. The constants Q and D that can be calculated from this are used to determine the switchover points for the following pipes of this draft game, without having to intervene again by hand.

The corresponding device works, for example, with pulse counters. After storing all lengths (impulses) of all (usually seven bundles of pipes), the operator observes the basket when pulling the first bundle of pipes of the second train and switches manually to low speed when there are only a few turns in the basket. The impulses are counted and recorded from the start of drawing to the switchover point. In addition, the impulses from the start of drawing to the end of drawing this tube are counted and registered. The quotient Q from the counted pulses from the start of drawing to the end of drawing this drawn tube and the counted pulses to the end of drawing of the tube drawn in the first train is a measure of the extension of the pipe in the second train. The current diameter of the drawing ring and stopper are also taken into account, which also influence the length of the finished pipe.

The pulses counted until the switch to low speed are subtracted from the number of pulses that result between the start of pull and the end of pull of the second train. The difference D formed in this way represents a measure of the pipe length which has to be driven at a reduced drawing speed.

With the constants Q and D determined in this way, the changeover points for the following pipes (normally six pieces) of this train play are then calculated. The number of pulses corresponding to the new total pipe length is saved to determine the next switchover points. If a pipe rip occurs, the automatic switchover is deactivated by pressing a button. When pulling the remainder, the switch to low speed is done by hand.

An exemplary embodiment of the invention is described below. The drawing shows the principle of a continuous drum drawing machine on which the method according to the invention can be carried out.

1 with the drawing drum is referred to, in which the tube turns, as indicated at 2, are wound in several revolutions in a known manner. A frictional force is thereby achieved which makes it possible to pull the tube 3 through the drawing tool 4 and thereby reduce it. During the drawing process, the pipe windings to be drawn lie in the drain basket 5 of the drain station (not shown in more detail), while the reduced, drawn pipe windings are thrown off by the drawing drum 1 into the receiving basket 7 arranged underneath. This is done in that the subsequent pipe coils 2 press the coils already on the drawing drum downwards so that they fall down when they come out of the area of the pressure roller 6.

As soon as the receiving basket 7 is filled with a complete tube length of, for example, 5,000 m, the receiving basket 7 is brought into the drain station and is there to the drain basket 5. The end of a drawn tube winding is introduced as the beginning of a new tube to be drawn in the next train in the continuous drum drawing machine, so that a second and further trains can be carried out in the same way.

In the exemplary embodiment it is assumed that a measuring device on the drum drawing machine emits a pulse per m tube. With a pipe length of 200 m after the first train, 200 pulses would then be stored.

According to this example, after the second train the pipe is 286 m long, 286 pulses have been saved.

However, so that the pipe end goes slowly through the drawing ring, the operator has switched the machine to slow speed after 250 m or 250 pulses, i. H. the 36 pulses to the end of the drawing correspond to the tube length of 36 m, which are driven at reduced speed.

In the case of a pipe 300 m long after the first train, the pipe length L _A , at which a switch to low drawing speed has to be made, would be calculated as follows:
Q = 286: 200 = 1.43
D = 286-250 = 36
L _A = 300 x 1.43 - 36 = 393

In the example above, the machine would accordingly have to be switched to slow drawing speed after 393 pulses corresponding to 393 m.

To determine the new drawn length, the number of pulses is counted from the start of the pull to the end of the pull and saved; this value serves as the basis for the calculation for the next drawing game.

Claims (1)

Method for automatically lowering the drawing speed of drum drawing machines for pipes or the like before the drawing end of a tube bundle, each of a plurality of tube bundles drawn one after the other being collected after a pull through the drawing tool in a receiving basket which is gradually transported to a discharge station after the tube bundle has been drawn , from where a further one of several pulling processes taking place in the same order is initiated,
characterized,
that the length of the drawn tube of each tube bundle in circulation is measured during the first train (M₁) and registered that the pulling speed is manually lowered towards the end of the train during the second train of the first tube bundle and the length of the tube pulled up to the time of lowering is measured (M₂ ) and is registered,
that the total length of this tube after the second train is measured (M₃) and registered,
that from the third measured value (M₃) and the first measured value (M₁) the quotient

is formed and the difference from the third measured value (M₃) and the second measured value (M₂)

$\text{D = M₃ - M₂}$

is formed and that for the subsequent second trains of the following pipe lengths R the drawing speeds are reduced after passing through the length of the drawn pipe L _A to be calculated according to the following formula:

${\text{L}}_{\text{A}}\text{= R x Q - D}$

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