DE3823459C1 - Throughflow body - Google Patents

Abstract

A throughflow body suitable, in particular, for waste waters (effluents) is alternately provided over its height with a plurality of closed duct sections (12) and a plurality of distributor sections (13). As a result, a good distribution of the waste water into the duct sections (12) is ensured without the fear of blockages in the distributor sections (13). The throughflow body can preferably be built up from shaped plates (11) which, at their top and bottom edges, form vertically running duct segments (5) which are joined together via duct segments (6) running at an incline in a triangle shape (Figure 2). <IMAGE>

Description

The invention relates to a flow body for fluids, in particular liquids, made up of mold plates with half open channels, the concurrently closed Canal routes or cross-flow distribution routes form.

It has been known for a long time that flow bodies in let inexpensive and effective form with mold plates, the best, for example, from a certain polyvinyl chloride hen. The known shaped plates have a zigzag shape de half-open channels so that two congruent to each other form plates placed a closed zigzag channel system bil the. It is also known to form distribution routes, the Form plates with intersecting half-open channels to each other set (cross-flow system).

Such flow bodies are mainly in the wastewater technology and have the task of creating the largest possible surface to be wetted by wastewater. Such flows mung bodies are primarily formed as trickling filters, the waste water reaches the top and through the trickling filter  flows through. Form on the surface of the trickling filter microorganisms that pollute the wastewater decompose and in this way a biological purification of the what effect. In a similar application, the water is in the flow body, which ventilates from the bottom is, so that in this case a flow direction from the bottom to is given above.

The flow body are preferably in the form of a ge closed channel system with separate channels educated. As a result, the fluid, for example the waste water, forced to flow along the channels. Is always problematic but the desired distribution of the fluid as evenly as possible on the channels. It is therefore known to have a flow body to be trained in such a way that it is above its essential height from a Channel system exists while upstream in the direction of flow a cross-flow distribution line is realized.

It has also been tried to make flow bodies finally build in the cross-flow system. These flows However, body parts tend to become constipated because they do not mechanism of the fluid column building up can. The blockages lead to the fact that with increasing loading use an increasingly smaller surface effectively is used.

The combination of a short distribution route with a long one Channel system has therefore been considered optimal so far. It However, it has been shown that in some applications the desired even distribution due to the relatively short ver partial distance is not reached, with an extension of Distribution route regularly due to the risk of constipation is out of the question.  

The invention has for its object a flow to train body of the type mentioned in such a way that a even distribution achieved with low risk of constipation becomes.

This object is achieved with a flow body of the type mentioned solved in that over the amount of Flow body several channel sections and several distribution The routes alternate.

Since in the flow body according to the invention channel sections and Distribution routes are arranged alternately, the Ver partial distances are kept comparatively short, the still achieved an optimal even distribution of the fluid becomes. Avoid the intermediate channel sections Constipation. This is further promoted by the fact that the channel stretch preferably substantially perpendicular, while the distribution lines contain the oblique channel runs.

In the flow body according to the invention, the lengths the canal and distribution lines are kept relatively short, so that increase even at low heights of the flow body right channel sections and distribution sections can alternate.

In a particularly preferred embodiment, they include the Flow plates forming channel plates, the ab already changing over the height of a single mold plate one (half) channel section, one distribution section and one Form (half) channel section. To do this, form the mold plates their upper and lower edges are vertical channels that with each other via triangularly inclined channel sections are connected. The vertical channels are in each Case added to a closed channel section while the triangular oblique channel sections form a cross flow distribution system can form.  

For stability reasons it is advantageous if the sloping channel sections over a perpendicular intermediate Connect the piece to one another.

The slope of the sloping channel sections is preferred chosen so that in the cross-flow arrangement on the two sloping sections are two intersections.

For the stable stratification of the mold plates in one flow it is advantageous if the cross-flow arrangement created intersection points each spherical segment-like Expressions are provided in the mold plates, for neighboring beard mold plates interlock and so to a relative Fix the form plates to each other.

In addition, the stability and relative determination of the mold plates can be increased to each other in that in the vertical areas expressions in the form of a axial longitudinal profile are provided.

The invention is based on one in the drawing illustrated embodiment are explained in more detail. It demonstrate:

Fig. 1 shows a detailed view of a half-open Kanalab section of a mold plate

Fig. 2 is a schematic representation for the stratification of two mold plates one above the other to channel and distribution lines.

Fig. 1 shows a section of a mold plate, which consists of a plurality of juxtaposed semi-open channels 1 , one of which is shown in Fig. 1 over a little more than half its length in detail. In the Dar position of Fig. 1, the channel 1 is open at the bottom and be on its top from a flat web 2 , on which on both sides sloping down sidewalls 3 close. The side walls 3 and the web 2 are provided with recesses 4 which serve to form an uneven surface for the fluid flowing along the walls, here waste water. The channel 1 has at its upper end a vertical channel section 5 , which is followed by a channel section 6 which runs obliquely, approximately at an angle of 35 ° to the vertical. This merges into a short vertical intermediate piece 7 , through the center of which a horizontal axis of symmetry 8 runs. The channel 1 continues mirror-symmetrically to the axis of symmetry 8 with a further oblique channel section 6 and a vertical end piece 5 .

The back web 2 has in its vertical sections 5 , 7 from 9 pressures as a longitudinal profile. In the inclined Ka channel section 6 , two spherical segment-like expressions 10 are provided at the intended intersection points.

Fig. 2 shows a die plate 11 having a plurality of parallel to each other extending channels 1. The solid lines in Fig. 2 show the course of the webs 2 of the channels 1 in the vertical channel section 5, the oblique channel section 6, the vertical intermediate piece 7, the subsequent returning oblique channel section 6 and the vertical channel section 5 , with the vertical channel section 5 at the other end the form plate 11 is aligned.

In dashed lines, webs 2 of an underlying mold plate 11 are shown, which cross in the oblique channel sections 6 the oblique channel sections 6 of the overlying mold plate 11 in the crossing points connected to the expressions 10 . From this it can be seen that a channel 1 , which forms a closed channel section with its vertical channel sections 5 with the channel sections 5 of an adjacent mold plate, crosses two adjacent channels 1 to form a short closed channel section in the vertical intermediate piece 7 of the third adjacent channel. Then the sloping channel piece 6 crosses back over the two adjacent channels to the output channel, where a closed channel section is formed again at the other end.

The illustrated in Fig. 2 mold plate 11 are thus lot right channel tracks 12 along both edges and a distribution path 13 in the center is formed, wherein the distributor link can be interrupted 13 by a short lotrechtes channel system 14 in the horizontal symmetry axis 8.

In a flow body usually several derar term mold plates 11 are arranged one above the other, so that from the sub-channel sections 12 an effective channel section of double length forms when two blocks with mold plates 11 adjoin each other in height. The result is an alternating system of channel sections 12 and distribution sections 13 , which have approximately the same length.

The formation of the vertical channel section 14 primarily has no flow-related reasons but rather serves to ensure the stability of the back-to-back connection of two shaped plates 11 to one another.

Claims (7)

1. flow body for fluids, in particular liquids, made up of molded plates ( 11 ) with half-open channels ( 1 ) which form concurrently closed channel sections ( 12 , 14 ) or intersecting (cross-flow) distribution sections ( 13 ), characterized in that Alternate several channel sections ( 12 , 14 ) and several distributor sections ( 13 ) over the height of the flow body. 2. flow body according to claim 1, characterized in that the channel sections ( 12 , 14 ) extend substantially perpendicular. 3. flow body according to claim 2, characterized in that the mold plates ( 11 ) form at their upper and lower edges perpendicular channel sections ( 5 ) which are connected to each other via triangular oblique channel sections ( 6 ). 4. flow body according to claim 3, characterized in that the inclined channel sections ( 6 ) connect to each other via a perpendicular intermediate piece ( 7 ). 5. flow body according to claim 3 or 4, characterized in that the slope of the inclined Kanalab sections ( 6 ) is chosen so that in a cross-flow arrangement on the two inclined channel sections ( 6 ) each have two crossing points. 6. flow body according to one of claims 3 to 5, characterized in that in each case spherical segment-like expressions ( 10 ) are provided in the mold plates ( 11 ) at the crossing points arising in cross-flow arrangement. 7. flow body according to one of claims 3 to 6, characterized in that the shaped plates ( 11 ) in the perpendicularly extending areas have expressions ( 9 ) in the form of an axial longitudinal profile.