DE3929180A1 - Splash-type internal structure - is for heat exchanger and consists of continuous length of strip folded through 180 deg to form parallel layers - Google Patents

Abstract

The device is pref. for use in cooling towers. It consists of parallel layers of grid-like splash elements at relative distances, located horizontally or vertically on carrier elements. The splash elements are for material/heat exchange between a gaseous and a fluid medium. In counterflow, crossflow, countercrossflow. Each splash device consists of a single continous length (2) which is folded several times through 180 deg. forming individual parallel layers (3). There are point/strip like distance pieces (4) between the layers.

Description

The invention relates to a trickle installation element for heat exchanger, preferably cooling towers, consisting of a plurality of substantially parallel and at a predetermined distance mutually arranged layers of grid-like trickle bodies, the standing vertically or horizontally on support elements in the Trickle room of the heat exchanger for mass and heat exchange arranged between a gaseous and a liquid medium are that in countercurrent, crosscurrent or crosscurrent are led to each other.

Such trickle installation elements are for example from the DE-OS 14 01 642 known. Each element is characterized by large areas and apertured trickle plates formed by one others are spaced apart by spacers. The type of a grid formed trickle plates are made individually placed and successively by hand on the in the trickle room of the respective heat exchanger trained support elements set, the preferably on the trickle plates Arranged spacers ensure that the trickle installation element forming trickle plates each in the specified Are spaced from each other and also during operation of the heat exchanger are kept.

Especially with cooling towers with a very large volume of Trickle room is this well-known type of manufacture and assembly  the trickle installation elements extremely costly, and so probably in terms of production as well as in terms of only manual installation.

The invention lies therefore the task is based on a trickle installation element to create the kind described above, which is not only Manufacture more cost-effectively, but also significantly less manual work.

The solution to this problem by the invention is characterized in that each element is made in one piece continuous path is formed by repeated flipping around 180 ° in the individual, parallel layers is divided.

The trickle installation element according to the invention can be complete Element made fully automatically from a continuous path be, the lattice-like structure on the respective Ein purpose of use is coordinated. Making a Rieselein bau-Elements takes place either from a roll or un indirectly behind an extruder producing the respective web. Through this continuous production, the Her position speed while improving the Quality can be increased and on the other hand the handwork on one Minimum be reduced because the complete trickle installation element is manufactured fully automatically and it is only necessary is the finished element in the trickle room of the respective heat to use the exchanger. Especially with cooling towers with one large number of trickle installation elements can be on this Significantly reduce the way of manufacturing and assembly work.

According to a further feature of the invention, between adj beard layers of the continuous path are punctiform or strip-shaped Spacers arranged. These can occur during manufacture  the trickle installation element automatically, for example by introduced a controlled robot arm or to the individual Layers of the web can be applied.

Alternatively, it is possible according to the invention neighboring layers of the continuous path by shaping the Train itself after laying down the individual track sections Keep 180 ° apart. In this way it is not necessary additional spacers that use, for example, a Robot.

In a preferred embodiment of the invention, the be neighboring layers of the trickle installation element by alternating Elevations and deepenings of the continuous path in longitudinal and / or cross web direction at a distance from each other. These Elevations and depressions can be just like the grid-like Structure of the web are produced in the manufacture of the same, so that after the multiple folding of the web according to the invention 180 ° the individual layers of the trickle installation element automatically are kept at a predetermined distance from each other.

Finally, according to another feature of the invention possible to form the web in multiple layers, which both the Simplify production as well as the design options reproduces.

In the drawing, a total of five embodiments of the shown trickle installation element according to the invention, namely demonstrate:

Fig. 1 shows a first embodiment of the Rieseleinbau element, wherein in plan view the Her position is shown schematically and in a Seitenan view the attachment is indicated by spacers,

Fig. 2 is a plan view of a second embodiment, the individual layers are also separated by the other spacer vonein,

Figure 3 guide die. A corresponding plan view of a third stop, which does holders without the use of distance,

Fig. 4 is a Fig. 3 corresponding representation of a fourth embodiment, also without spacers and

Fig. 5 is a plan view of a fifth embodiment, in which the trickle installation element is made of two layers more layers.

Fig. 1 shows a roll 1 , which has been formed by winding a web 2 with a lattice-like structure. The web 2 is pulled off this roll and folded several times through 180 °, so that there is a trickle installation element with several layers. To keep the individual, parallel layers 3 at a predetermined distance from each other, spacers 4 are used. These spacers 4 are automatically applied to the web 2 by means of a magazine 5 , for which purpose a robot arm can be moved in the longitudinal and transverse directions to the web 2 , as was indicated in the lower part of FIG. 1.

Each individual trickle installation element consequently consists of a continuous web 2 with a plurality of individual layers 3 running parallel to one another, the shape of the web 2 being designed in accordance with the respective application. The design and arrangement of the spacers 4 can be based on the respective intended use.

The complete, fully-automatic pouring element  becomes whole in the trickle room of each Heat exchanger used, so that manual work both in the manufacture and in the assembly on one Minimum limited.

The embodiment according to FIG. 2 shows an embodiment of the individual layers 3 modified for execution according to FIG. 1. In the exemplary embodiment according to FIG. 2, these run only over half the length of the trickle installation element, whereby it is nevertheless ensured that the outer end layers are continuous. In this embodiment, too, individual spacers 4 are used in order to keep the individual layers 3 at a predetermined distance from one another.

The embodiment shown in Fig. 3 can dispense with the use of such spacers. In this embodiment, the web 2 is formed by the formation of elevations and depressions with a zigzag-shaped cross section. By flipping the web 2 by 180 °, adjacent individual layers 3 are supported against one another by means of their elevations or recesses, so that the individual layers 3 of the Rieselein construction element are fixed without the use of spacers.

A corresponding situation arises with regard to the embodiment from FIG. 4. Here, the web 2 is seen with cross-sectionally semicircular elevations 6 or depressions 7 , which either run over the entire width of the web 2 or are only designed in a punctiform manner. These elevations 6 or depressions 7 cause in successive layers of the 180 ° folded path 2 that adjacent one cell layers 3 support each other, as can be seen from FIG. 4. The fixing of the layers in Fig. 3 and 4 with each other can, if necessary, be carried out by various methods such as welding, gluing, clamping, etc.

The Fig. 5, finally, shows an embodiment of Rieseleinbau- element of two sheets 2 and 8. These two parallel tracks 2 and 8 are each provided with elevations 9 and 10 facing to one side, which after the order of the two tracks 2 and 8 by 180 ° result in mutual support. In this exemplary embodiment too, the elevations 9 and 10 can either be continuous, that is to say in the form of strips or punctiform, in order to ensure the necessary fixing of adjacent individual layers 3 of the pouring element.

Reference number list

1 roll
2 lanes
3 single layers
4 spacers
5 magazine
6 survey
7 deepening
8 lane
9 survey
10 survey

Claims (5)

1. trickle installation element for heat exchangers, preferably cooling towers, consisting of a plurality of substantially parallel and at a predetermined distance from each other arranged layers of grid-like trickle bodies, which are standing vertically or horizontally on support elements in the trickle space of the heat exchanger for mass and heat exchange between are arranged in a gaseous and a liquid medium, which are guided in countercurrent, cross-flow or cross-countercurrent to each other, characterized in that each element is formed from a one-piece continuous path ( 2 ), which is turned several times by 180 ° into the individual, Layers ( 3 ) running parallel to one another are divided. 2. trickle installation element according to claim 1, characterized in that between adjacent layers ( 3 ) of the continuous web ( 2 ) point or strip-shaped spacers ( 4 ) are arranged. 3. trickle installation element according to claim 1, characterized in that adjacent layers ( 3 ) of the continuous web ( 2 ) by shaping the web itself after folding the individual web sections ( 3 ) are held at a distance of 180 ° to each other. 4. trickle installation element according to claim 3, characterized in that the adjacent layers ( 3 ) of the element by alternating elevations ( 6 ) and depressions ( 7 ) of the continuous web ( 2 ) in the longitudinal and / or transverse web direction at a distance from each other are. 5. trickle installation element according to at least one of claims 1 to 4, characterized in that the web ( 2 , 8 ) is constructed in several layers.