DE3241876C2 - - Google Patents

Description

The invention relates to an arrangement for controlling a Fractionator for separating a fiber suspension according to the Preamble of claim 1.

Such a device has become known from the DE-OS 30 41 052. In this facility an attempt is made by the be power control knew the operating method of the fractionator as reliable as possible and with high efficiency ten, d. H. the best possible separation of long and short fibers to reach. As is known, this power regulation includes that you drive near the maximum sieve load and at occurring overload phenomena of the motor drive who withdraws the service, d. H. throttles the throughput, or that the drain lines, especially those for the long fiber fraction throttles less. However, this procedure is not optimal and requires a largely constant through river, d. H. the processed fiber suspension.

This setup has the following disadvantages:

• a) The torque of the rotor provided with the rotating blades is both of the concentration of the long fibers and of the nature and influence of which depend on the rheology, which leads to the fact that a work just below the ver is not possible;
• b) the torque of the rotor is also dependent on the rheology of the Feed mixture dependent (change in viscosity at Dilution and depending on the shear rate);
• c) Discrepancies in the management variable are possible.

The object of the invention is to provide a device which allows fractionation to be carried out properly and doing so, even though you are close to the clogging limit of the sieve drives, a safe operating behavior, d. H. with as little as possible Business interruptions.

This object is achieved with a device of the initially mentioned type solved by the characteristic features of claim 1.

Substance consistency or concentration sensing devices (hereinafter briefly Concentration sensing devices) are of course used as measuring devices widely known in waste paper processing. Your commitment has so far not taken place in the manner according to the invention, and in fractionation processes at most according to the nenden part of claim 2. These sensing devices are eini fairly accurate so that they allow deviations in the Concentration of 0.1%. This will set up tion very sensitive and it has a relatively simple structure despite the best effectiveness. This also ensures operational reliability brought to the greatest possible degree.

It would of course also be possible to measure the quantity in such a way that one z. B. in the long fiber strand determines whether there is still one sufficient flow is available. However, this should be measured solution with great effort to great accuracy will. Even then, the results would not be as cheap as with the method according to the invention.

The invention is based on one in the drawing illustrated embodiment explained.

1 with the fractionator, with 4 the substance concentration sensor in the long fiber line after the fractionator 1 , with 2 a corresponding substance concentration sensor in the inlet line 14 to the device. In the long-fiber line Lf is 5, z behind the concentration sensing device 4 is a choke. B. in the form of a slide or a ball valve and also in the Kurzfa serleitung Kf a corresponding throttle is arranged. The openings of these chokes are controlled by the concentration sensing device 4 via the concentration controller 3 . This outputs its output signal to the pneumatic computing relays 9 and 10 . The relay 10 , which acts on the choke in the short fiber strand Kf , receives its input signal via a reversing element 11 . This causes the two chokes to open or close in the opposite relationship to each other.

A concentration controller 8 is also connected to the substance concentration sensing device 2 , which acts on a valve 16 in a supply line 15 for dilution water, through which dilution water can be supplied to the suspension in order to achieve a constant concentration at the entrance of the fractionator 1 .

By means of manual control stations 18 and 19 , corrections can still be made.

The fractionator 1 is now operated with such a throughput that the sieve of the same works almost at the clogging limit. Now determines the concentration controller 3 via its Kon concentration sensor 4 that the concentration in the long fiber line is too high, this means at the same time the determination that the risk of clogging of the sieve is increased. Therefore, the regulation is such that in such a case the throttle 5 opens further, so that the risk of clogging on the sieve of the fractionator 1 decreases again. On the other hand, with the help of this substance concentration sensing device and concentration controller, the apparatus is operated in such a way that it practically always works in the vicinity of the clogging limit of its sieve. This gives the best fractionation effect. At the same time, however, operational safety is greatest with this method.

This device can also be used for fluctuating amounts of substances can be mastered, provided that these fluctuations are not more than Deviate 30% down from the nominal value. A deviation after above is only possible to a small extent.

Claims (3)

1. Arrangement for control in a fractionator for separating a fiber suspension into a fraction with a predominantly long fiber fraction and into a fraction with predominantly short fiber fraction, a throttle being arranged in the long fiber line, which is operated via a controller, characterized by a substance concentration sensing device ( 4 ) in the long fiber line (Lf) to control the opening of the throttle ( 5 ) proportional to the measured concentration via a concentration controller ( 3 ). 2. Arrangement according to claim 1, in which a substance concentration sensing device ( 2 ) in the inlet line ( 14 ) of the fractionator ( 1 ) is arranged, characterized in that the substance concentration sensing device is connected to a concentration controller ( 8 ) which in one Supply line ( 15 ) for dilution water to the inlet line ( 14 ) of the fractionator ( 1 ) arranged throttle point ( 16 ) acts. 3. Arrangement for fractionation with a fractionator according to claim 1 or 2, wherein a throttle is also arranged in the short fiber line, which is controlled by the controller, characterized in that the concentration controller ( 3 ) of the substance concentration sensing device ( 4 ) in the long fiber line (LF ) with the throttle ( 5 ) and the throttle ( 6 ) in the short fiber line (KF) through a reversing element ( 11 ) in the way that the z. B. with increasing concentration in the long fiber line, the throttle ( 5 ) opens and the throttle ( 6 ) in the short fiber line (Kl) closes.