DE684870C - Surface cooler, especially for chimney coolers - Google Patents

Description

Surface coolers, in particular for chimney coolers The invention relates on a surface cooler, especially for chimney coolers, in which the water between cooling surfaces downwards and the air upwards. They are surface coolers of this type known in which the cooling surfaces are made up of parallel rows consist of closed panels that are inclined and offset in this way, that: the water alternates from one plate in one row to the next lower lying plate of the adjacent row is performed. These well known coolers have but the disadvantage that the water is essentially in the free, vertical fall of a plate crosses over to the relatively far lower lying plate. The free fall of the water to be cooled is disadvantageous because the time of contact with the air flowing upwards is only very small and because, in addition, a sufficient one The water cannot be torn apart into small drops. The disadvantages these known types of radiator are avoided according to the invention in that the Panels of each row form zigzag-like, closed walls and that the slope the plates so large and the distance between adjacent rows of plates so small is that a free fall of the water droplets is avoided. will. The water is at this design of the cooler according to the invention forced to a zigzag path, the length of which is, for example, approximately twice as great as the height of the cooling walls self.

A particularly even distribution of the water on the individual Cooling surfaces and thus a special promotion of the cooling process is achieved, if, in a further embodiment of the invention, the cooling plates on the lower edge one across the water current have lying trough or the like, by which the water leaving the step experiences a deflection upwards. This measure forces the water to cover a larger part of the surface touching every single plate.

The provided by the invention from: education of the cooling surfaces and the resulting forced zigzag path for the water flow also has the advantage with it that the air must also perform a zigzag movement and in this case that A substantial part of the water penetrates the cross-flow. This strange leadership the air, however, promotes the strong disruption of the water, which is to be striven for small water droplets.

The cooling plates. can be made of any material, e.g. B. made of wood but it is best to make these plates from sheet metal because this has the advantage of greater thermal conductivity.

Overall, the invention results in a cooler that is low at Overall height brings a very high performance with it.

In the drawing, the subject matter of the invention is based on an exemplary embodiment schematically illustrated: Fig. i shows a longitudinal section through several cooling walls, Fig. 2 is a side view of a cooling wall.

The one to be installed preferably in the lower part of a chimney cooler The cooling unit consists of a large number of chevron-shaped cooling walls a. The angular steps of each cooling wall close in the illustrated embodiment an angle ä of about 90 °. Of course, the angle can be smaller or smaller can also be chosen larger. The vertices of these cooling walls adjacent to the angles lie in the illustrated embodiment in the same horizontal planes, but there are also amendments here. possible.

The arrangement is chosen so that .the between adjacent cooling walls remaining free space has a relatively small width b. This width can of course also depending on the circumstances of the individual case enlarged or reduced. The angle steps are arranged at intervals Beads c or indentations. c ", through which an even distribution of the water and an increase in droplet formation. At the older one On the edge of the individual angular steps, horizontally continuous troughs d are provided.

The arrows x indicate the flow of water and the arrows y illustrates that of the air. You can see from the arrows x that the water is forced into a zigzag flow by alternating it from the angular step of one cooling wall to the next lower angular step the adjacent cooling wall is performed. In this way it will be from the upwards flowing air flows through a substantial part in the cross-flow. As from the Drawing can also be seen, the water is drawn through at the bottom edge the horizontal troughs located in the angled steps when leaving this step slightly deflected upwards in its direction.

Claims (2)

PATENT CLAIMS: i: Surface coolers, especially for chimney coolers, at which the water is led downwards between the cooling surfaces and the air is led upwards and in which the cooling surfaces from rows connected in parallel are inclined towards one another in this way and staggered, closed panels exist; that the water alternates from one plate in one row to the next lower plate in the adjacent row Row is performed, characterized in that the plates of each row zigzag, form closed walls and that the inclination of the panels (a) as great and the distance (b) adjacent rows are chosen so small that a free fall of the water droplets is avoided. 2. Surface cooler according to claim i, characterized in that the Cooling plates (a) at their lower edge a depression lying transversely to the water flow (d) by which the water leaving stage i undergoes a deflection upward experience.