DE723368C - Method for measuring and regulating the density of pulp, in particular pulp mixtures - Google Patents

Description

Method for measuring and regulating the density of pulp, in particular Pulp mixtures For measuring the consistency of pulp mixtures, especially of pulp and paper pulp, the property of these mixtures of substances is used Flow along a wall is used to change the frictional losses with the consistency of the material.

With the controllers that are known to this day and work according to this knowledge the consistency is preferably determined by having any device with a A constant amount of substance is allocated to the friction path and then inevitably any changes in the material density related to the overcoming the necessary pressure of the material friction can be used for regulation.

There are also methods for measuring and regulating the density of fiber, in particular pulp mixtures become known, in which the latter under equal; calibrating hydrostatic pressure are fed to a measuring container, from which the mixture of substances flows through a friction path or friction nozzle and in which the density by which different standing heights are determined depending on the friction of the mixture. In this known arrangement, a friction path influencing the measurement or friction nozzle behind the measuring container, however, the sensitivity of the measurement becomes may be significantly reduced. Namely, there are fluctuations in the amount of the dem Substance supplied to the measuring container due to the variability which is dependent on the consistency of the substance the pipe friction cannot be prevented. They also have the necessary stock pumps Property of changing their delivery rate with changing stock consistency. Both quantity changes have the same effect.

This is how it becomes when the mixture of substances becomes denser z. B. the Pipe friction is greater and the amount of substance mixture is smaller. The same applies to the stock pump the material friction on the impeller is greater, so that the material delivery of the pump decreases. When the mixture of substances becomes thinner, they reverse themselves. the effects in such a way that the The quantities of the mixture of substances flowing into the measuring devices become larger.

By installing overflow vessels, a large part can now be switch off the malfunctions described above. A complete elimination of the same however, it is not possible. because the necessary to remove the superfluous mixture of substances Overflow height must be larger or smaller, depending on the branched off for the measurement 3 Amount of substance should be larger or smaller.

As the mixture of substances becomes denser, the overflow height also increases in the overflow box become smaller, as the amount of mixture flowing in has become smaller is. This also reduces the amount of substance mixture that flows off. Will the fabric thinner, the overflow height in the overflow box is greater.

These fluctuations in quantity lead to the fact that in the known method, in which a compression of the mixture of substances by increasing the standing height and a dilution of the same measured by a fall in the level in the measuring container will. the measurement sensitivity is reduced because the quantity fluctuations of the measurement counteract. So the liquid level is higher than it should be, when dilution of the mixture occurs. The differences from one to the next Units are accordingly small. It can go so far that with great dilution of the substance mixture, the liquid level instead of falling, begins to rise.

According to the invention, these deficiencies are thereby eliminated. that this the mixture under constant hydrostatic pressure before it moves into the measuring container enters. a conduit or channel flows through in which the frictional force is noticeably dependent on the density, such that as the density of the mixture increases the height in the measuring container it falls and vice versa with thinner sverdendem mixture of substances increases.

With such a design of the measuring method, the above specified circumstances become effective in terms of an increase in the measurement accuracy.

According to the invention, a regulator is expedient. of the Level of the mixture of substances in the measuring tank is influenced, the amount of dilution water for the mixture of substances changed automatically and so the flow rate of the mixture of substances or the material density of the same kept the same.

Some devices are schematically shown in Figs. 1, 2 and 3 of the drawing for performing the method according to the invention, for example. the The mode of action is as follows: If you let a mixture of substances z. B. through a channel I (Fig. 1) flow under constant pressure, this channel becomes a very specific one Allow the amount of the mixture of substances to pass through. This amount of substance let through by the gutter is depending on the inlet pressure and the material friction on the wall.

The inlet pressure is determined by an overflow vessel 2 or other known ones Means kept the same, so that only the flow of this mixture of substances The material friction occurring along the wall determines the amount of material mixture passing through. Since this notion changes with density, it must consequently change Change the amount of mixture flowing through the channel. If you leave this amount of substance mixture flow freely at the end of the channel at 3 and then measure with the aid of the known discharge vessel 4 this amount of substance mixture, this is a measure of the Consistency of the mixture. By using the discharge vessel, the quantity measurement fed back into a measurement of the water level 5 in this vessel, and the substance level in this vessel there is a measure of the density.

If this liquid level is transferred in a manner known per se on a measuring device. so you can easily read off the density here.

Instead of the gutter, a piece of pipe can of course also be used; with or without Elbows are used. This arrangement is shown in Fig. 2. It is too possible. to use a star feeder, as shown in Fig. 3. Both devices have the peculiarity, depending on the density of the mixture of substances, more or less amount of substance to let through, so that even with these facilities by measuring the amount of the mixture of substances the consistency can be determined. Since the amount of the mixture of substances is already at If the density fluctuations are very small, the measuring method can be used to advantage be used to keep the density equal by a suitable controller, by, for example, the water inflow depending on the amount of substance mixture is regulated automatically.

Claims (2)

PATENT CLAIMS: 1. Method for measuring and controlling density of pulp, especially pulp mixtures. those under constant hydrostatic Pressure are supplied to a measuring container in which the Density through which is determined depending on the friction of the mixture, different level, thereby characterized that the standing under constantly constant hydrostatic pressure Glemisch, before it enters the measuring container, flows through a pipe or channel, in which the frictional force is noticeably dependent on the density, so that with an increase the density of the mixture the level in the measuring container falls and vice versa with thinner increasing mixture of substances. 2. The method according to claim I, characterized in that by his Regulator that is influenced by the level of the mixture of substances in the measuring container, the amount of dilution water @ for the mixture of substances changed automatically and so the The same is kept the same by the flow rate of the mixture of substances or the consistency of the substance will.