DE334079C - Inclined partial channel for separating homogeneous and inhomogeneous liquids and flowing materials of any kind into any number of equal parts of any size, divisible by powers of 2 - Google Patents

Description

Inclined partial channel for separating homogeneous and non-homogeneous liquids and flowing materials of any kind in any number of the same and any size, parts divisible by powers of 2.

In many establishments the need arises, something fluent To divide material into as many parts as you like, but absolutely of the same type. The to it The devices used can be divided into two groups, namely those whose The purpose is to evenly divide the flowing material into any number of parts, and in those that deposit a small but similar part of the entire property to have.

The first group includes those with the collective names distribution cc or "Dividers" denote constructions in which the distribution of the flowing Material in the older types is achieved by the fact that the over a crooked Evenly flowing current through protruding resistors in any number of partial currents is dismantled, while the newer constructions allow the flowing stream to flow through many, Lined up holes or jagged holes lying on a horizontal edge Divide incisions into individual streams.

All of these devices result in equal parts in terms of quantity of flowing material, but in their nature of composition these parts are different, since the parts that can be deposited most quickly are in the ones closest to the inlet Enrichment located substreams, while the substreams removed from the inlet the most difficult to contain substances that sink to the ground in larger quantities, what for many establishments is at a great disadvantage.

The apparatus belonging to the second group includes all those constructions which are used to take samples, samples, analysis samples II. These devices work either intermittently or continuously. With the former, the Sampling achieved in that a vessel at certain time intervals a certain Absorbs part of the flowing material and stores it separately. These apparatuses surrender Average samples are quite good in terms of quantity, but not in terms of quality are flawless, as the sampling is intermittent, and the type of Pattern only corresponds to the composition that at the time of creation The continuously operating apparatus had flowing material to function in the way that it usually flows vertically downwards in a tube-like vessel Current is divided into two equal parts by symmetrically attached edges, whereby the one partial flow falls again on a symmetrical edge, which is perpendicular is arranged in relation to the previous one, so that the principle of "quartering" is adhered to will. These constructions result in fairly uniform patterns in terms of quantity, which can also be drawn continuously from the whole stream, but in nature they are not perfect, as the heaviest parts are distributed on one side as soon as the flowing stream is not exactly vertical or flows somewhat eccentrically. This But status occurs immediately when the incoming amount changes. Therefore these apparatuses are only at a very specific and constant one Amount of electricity flawless.

The present invention now eliminates the disadvantages outlined above, by allowing a desired flow of any large flowing stream Separate a quantity of partial flows of any size, but which are necessarily identical in their composition are.

This is achieved in that the stream of flowing material flows through an inclined gutter which is symmetrical about a vertical plane. The division is made by an edge in this vertical plane of symmetry is in two parts of exactly the same size and composed of the same type. By Repeating this process, the number of parts and their size is determined, but the nature of the composition of the individual parts is always the same as that of all the flowing material is.

Depending on the use, there are two types of constructions, some of which are used as distributors while the others are used as devices serve to take average samples.

In Figure I of the accompanying drawings, some are vertically symmetrical Channel cross-sections given as examples. As can be seen from Fig. I, store the individual substances are in individual horizontal lines depending on their specific weight Discs from which only by a vertical plane of symmetry in equally large and similar Parts can be disassembled.

In Fig. 2, for example, the construction of a divider is shown in Top view and cross-sections shown - which is a flowing material in four to dismantle parts of the same size and of the same type. In the line I-I is the cross section the gutter is an isosceles triangle. In the line 2-2 the cross-section is through a perpendicular edge, which lies in the plane of symmetry, into two congruent triangles divided, therefore also the flowing mass divided into two congruent parts. As a result, the asymmetrical triangular cross-section 3 is converted back into an isosceles, so vertically symmetrical triangle 4 transferred and again by the perpendicular The plane of symmetry broken down into two congruent parts, which are denoted by 5. This The process can be repeated any number of times, the partial flows are always the same be big and homogeneous.

Fig. 3 shows, as an example, an apparatus in plan view and cross-section how it is built for taking average samples. Condition is that about 2 percent of the flowing material can be removed as a pattern.

The liquid to be divided flows again through a vertically symmetrical one equilateral triangle I, is divided into two by the perpendicular plane of symmetry 2 dismantled congruent parts 3 and 4, one of which drains through hole 5, while the other again in the symmetrical cross section 6 in a known manner is shared. Each partial flow is therefore the congruent half of the incoming flow, and so the total current is calculated according to the number of divisions in 1/2, 1/4, 1/8, 1116, etc. divided. Is now required, for example, that the separated part is about 2 percent of the total flowing material, the partial flow is the sixth division equal to 1/64 with the partial flow of the eighth division equal to 1/256 combines and results in the sum of both partial flows 1/64 and 11226 equal to around l / 5l, so about 2 percent of the total electricity.

However, these devices can also be used as simple measuring instruments in such a way that a certain partial flow is collected in a measuring vessel and is measured. Multiply this measurement number obtained by the division coefficient of the partial flow, one obtains the measure of the total amount of the flowing material, which flowed through in the given time.

Claims (2)

PATENT CLAIMS: 1. Inclined partial channel for separating homogeneous ones and inhomogeneous liquids and flowing materials of any kind in any number equal and arbitrarily large parts divisible by powers of 2, characterized by that the flowing material in a channel which is symmetrical to its bisection plane is built, by a vertical wall of symmetry in two exactly symmetrical, so equally large and similar partial flows and each partial flow in turn through a second vertical wall of symmetry, which lies behind the first, into two equal partial flows is dismantled, etc. 2. Embodiment according to claim I, characterized in that of the split stream, one part flows through an opening, the rest Part is divided again, part of which is brought to the drain again, and so on.