DE2032292A1 - Cooling tower drip screen with interrupted - surface - Google Patents

Abstract

Screen comprises sets of sheets, generally parallel but inclined to the vertical. Sheets are corrugated or undulating in two directions and are arranged with peaks and troughs of adjacent sheets staggered. Cutouts in sheets have serrated upper edges, from which the water drips missing the lower edges since these are not located vertically below. Water film flow is thus repeatedly interrupted and broken up into droplets. Strip material of metal, mineral, or plastic may be used.

Description

Cooling grid as trickle installation The invention relates to a ERhlraster as trickle installation, especially for cooling towers, consisting of several Plates or strips of metallic, mineral, arranged parallel to one another and / or synthetic material, the plates or strips over a substantial Part of their first slope run diagonally to the vertical, by simply Corrugated plates or strips parallel to one another but at an angle to the vertical are put together horizontally in packets, or at least each plate or strip in sections in two mutually different directions wave-like perpendicular is deformed to the plate plane and with respect to an imaginary plate center plane (strip center plane) at least partially in two different directions each one in front of this central plane lying bulge one behind this plane lying bulge and one behind this plane lying bulge is followed by a bulge lying in front of this plane and the wave crests or wave troughs of these plates (strips) at the wave troughs or wave crests of the respectively adjacent plates (strips), if necessary below Interposition of flat plates (strips), e.g. by welding, gluing, etc. are connected.

Drainage installations of this type are known per se. The medium to be cooled moves under the formation of films on the surface of the trickle installation the effect of gravity downwards and thus offers the Icuhlluft a corresponding large surface. The invention is based on the knowledge that the Yiihi performance can be increased considerably when the downward trickle Film is often interrupted in favor of the formation of drops. The free falling Drops shatter into numerous when they hit fixed parts of the trickle installation small syringes that evaporate quickly in the counter air flow and thereby evaporative cooling produce.

The invention is now characterized in that the plates or Strips have openings and at least the upper edge of these openings is toothed, ribbed or knobbed, and these openings are essentially Part of its extension outside the perpendicular but the strip below or plate part, that is, the trickle stretches directly following the openings ijit are generally not perpendicular to each other. With the Xühlrastern of the type to which the invention relates, are orntung because of the wave-like shape numerous mutually inclined surface sections are available, which the possibility Not to rule out a rix sal or streak formation, albeit through this wave-like deformation such rivulets that may arise always be subdivided and interrupted again thanks to the proposal according to the invention but it is also achieved that the trickling film through the openings is torn off and forced to form drops, whereby, as already mentioned, a considerable increase in the cooling capacity is possible.

To illustrate the invention, this is based on the drawing explained in more detail, without affecting the invention on the exemplary embodiments shown to restrict.

1, 2, 3, 4 and 5 show different strips of plastic material for the formation of trickle built-in structures in front of their wave-like deformation; the Fig0 6 and 7 two trickle installations (excerpts), in an oblique view, consisting of strips of the Inventive type according to Figure Fig. 1 have been produced. Fig.

Fig. 8 is an oblique view of a ribbon-like strip which is to be formed of trickle internals according to FIGS. 6 and 7 is used and both in the longitudinal as well in Transverse direction is formed wavy, but the clarity because of this Strip in Fig. 8 is shown without the perforations; Fig. 9 shows schematically a ribbon-like strip with a simple protrusion, also without perforations and FIG. 10 shows a trickle installation made of strips according to FIG. 9.

1 to 5 show strips 1 - 1 '' '' with a height H of approx. 100 mm, which have been extruded from a thin-walled plastic sheet, and before their wave-like deformation. These flat strips are 1 - 1 '' '' several perforations 2 - 2 "", which are either regular or irregular can be shaped. It is essential that the upper edge 3 - 3 '' '' of these openings are toothed, frayed or ribbed in any way, so that the Rivulets that converge at the upper edge are forced to drip off. the Openings can be embossed or punched out in the extruded strips or the strips are made from the outset using known methods Manufactured in a grid-like or net-like manner. In the embodiments of the strip according to FIGS. 3 to 5 is the proportion of breakthroughs more than 50 % of the area occupied by the strips themselves. It is advantageous to have the breakthroughs alternately offset against each other, so that the entire strip height H in several only short trickle stretches Rs is divided. Strips of the type shown will be now corrugated one or more times in suitable devices and then into trickle installations composed as FIGS. 6 and 7 illustrate schematically, the such trickle internals show in oblique view.

Fig. 8 now shows in detail a band-like strip that several times is corrugated and which is used to form the trickle fittings according to FIGS. 6 and 7, however, in this FIG. 8, for the sake of clarity, the openings are not are registered. The ribbon-like strip 1V ', for example from one of the Made of plastic material that is sufficient for mechanical and thermal loads is, points both in its longitudinal direction (arrow 14) and in its transverse direction (Arrow 12) shows a wave-like course, with the two wave trains facing each other are superimposed so that with respect to the imaginary stripe center plane 13 both in the longitudinal as well as the transverse extension (14, 12) of the strip 1 each one Bulge 5, 5 ', 5' ', etc. lying in front of this level 13, one behind this level 13 lying bulge 6, 6 '6 "and one lying behind this plane one before This level located bulge follows. Become two mutually perpendicular cutting planes 7 and 8 placed, which perpendicularly penetrate the imaginary Itittelplane 13, with a Section plane 7 contains the central axis 9 of the strip 1V and is placed parallel to it and the other cutting plane 8 is a bulge in the region of a vertex height 5 or 6 is performed, on the one hand there is an approximate cutting contour straight line io, which coincides with the longitudinal central axis @ e 9, on the other hand an undulating cut contour 11 (Fig. 8). Even if in Fig. 8 the wave trains are shown running continuously, then ee is definitely in the Rabmender X, possibilities of deforming the strip so that the individual cut contours are formed by straight lines, for example trapezoidal or triangular. Even the steady course of the wave trains does not bind, since it is quite possible to provide an interrupted 'VellensRg, or the strips only in each case part of its length in the manner suggested to train. It is also not essential for the invention that the directions of the two shaft trains stand perpendicular to each other, because it is easily possible that these two Directions include an acute angle with each other. The wave course in the transverse direction (Arrow 12) of the strip 1V is relatively short, so that its cutting contour 11 with the plane 8 with respect to the imaginary stripe center plane 13 as positive and represents negative quarter wave 11 ', 11 "". However, it can easily be the stripe can be made wider or the corrugation can be shaped in the transverse direction so that that several positive and negative wave crests appear in this direction.

In contrast, FIG. 9 shows a band-like strip 100, which can also be made of plastic and which is simply corrugated is, i.e. the wave train only runs exclusively in the direction of the strip as FIG. 9 shows in an oblique view. Such stripes, now with numerous refractions must be thought equipped, as shown in FIGS. 1 to 5, are now parallel to each other but at an angle to the vertical ici lying in packets put together (see Fig. io) and thus form the trickle installation. Through the sloping.

When the individual strips are joined, the upper edge or Serrated lower edge of the drainage installation. But it would be quite conceivable to have one here to achieve a straight line by simply cutting off the drainage installations will. As already mentioned, the trickle paving is a matter of course in each of these forming strips 100 recesses or recesses provided similar to the exemplary embodiments after the pig. 1 to 5.

For the sake of clarity, however, these are not shown.

To achieve a favorable cooling effect, it is necessary to that the free falling drops reach a certain minimum velocity, for which reason a correspondingly large freefall distance must be provided from It is therefore important to that in a trickle installation, which has been built from strips according to FIG. 3, the Freefall distance for a drop falling at point A, for example, is not is woven through the route 4, because as a result of the double corrugation after Fig. 8 or the inclination of simply corrugated strips according to Fig. Lo is the Point A either in front of or behind the seneinbaren incident point B, so that the-bei A falling drop will travel a much greater distance before it hits is given as it is apparently given by the length of the segment 4. The stripes after 3 to 5 are network-like due to the large area of the perforations designed so that -the trickle installation, which is composed of strips of this type is, as it were, has the structure of a space lattice in which free-fall sections and trickle paths alternately follow one another.

As mentioned, the individual strips can be made from an extruded plastic material be formed, which is first embossed or punched and then deformed in a wave-like manner, Or else these strips can consist of individual ribbons that join together at the crossing points be glued or welded, be formed, as for example in the embodiments 4 and 5 is shown. However, this is an exclusive matter manufacturing technology and is not so important for the invention.

Bank of the proposed measure, it is possible in trickle coolers, which are constructed like a honeycomb to build in drip sections, which is a considerable increase the cooling capacity of this type of cooling grid.

Claims (8)

Bat claims ffUblrasterr as a trickle installation, especially for cooling towers from several parallel arranged plates or strips of metallic, mineral and / or synthetic material with the plates or strips over run a substantial part of their extent obliquely to the vertical by simply corrugated plates or strips parallel to each other but at an angle to the vertical are put together horizontally in packets or at least each plate or strip in sections in two mutually different directions wave-like perpendicular is deformed to its plane and with respect to an imaginary center plane at least partially in two different directions each one in front of this X-level lying bulge, one behind this plane lying bulge and one behind this plane lying bulge is followed by a bulge lying in front of this plane and the wave crests or wave troughs of these plates (strips) at the wave troughs or the wave crests of the adjacent plates (strips), optionally with the interposition of flat plates (strips), e.g. B. by welding, Irlebung etc. are connected, characterized in that or plates or strips Have perforations and at least the upper edge of these perforations is toothed, is knobbed or ribbed, and these openings are essentially Part of its extension outside the perpendicular to the deiii below Strips or part of the plate are located, which are therefore directly following the openings * iesel tracks, generally not perpendicular to each other. 2. Cooling grid according to claim 1, characterized in that the openings as openings running transversely to the direction of flow of the medium to be wedged, for example in Fórn. of longitudinal slots are designed. 3. Kühiraster according to claim 1, characterized in that the openings are designed in a diamond shape. 4. cooling grid according to claims 2 and 3, characterized in that that the perforations of a plate or a strip alternatively are arranged offset from one another, so that the approximately vertical Trickle path of a plate or a strip is interrupted several times. 5. cooling grid according to claims 1 to 4, characterized in that that the proportion of the perforations in the total area of the strip or the Plate is greater than 50% 6. cooling grid according to claim 5, characterized in that that the plate or the strip as a result of the perforations a lattice or reticulated Has structure0 7. cooling grid according to claim 6, characterized in that the Mesh or grid structure of a plate or a strip through parallel and / or cross-wise narrowing of firmly connected, preferably ipyter, toothed ones or knobbed sclmi-aler ligaments or rods made of plastic is achieved. 8. Cooling grid according to claim 1, characterized in that that the wave-like deformation of the perforated plates or strips with the same Height of the peaks of the wave crests or the wave troughs in both directions having different wavelengths from each other. L e r s e i t e