DE1813087A1 - Open surface trickler of metal,plastic,etc - for evaporative cooling equipment - Google Patents

Abstract

Open surface trickler of metal, plastic, etc., for evaporative cooling equipment It consists of a corrugated sheet with relatively large corrugations in one direction and relatively small ones at right angles to the large ones. Coupling pins are provided at the peaks and troughs of the large amplitude corrugations. Arrangements gives higher flow velocities of the gases to be cooled. Cooling water goes over the trickler surfaces.

Description

Trickle built-in body for evaporative cooler The invention relates to a trickle installation body for evaporative coolers.

In such trickle coolers the liquid to be cooled flows, e.g. the water, over drainage areas. The liquid to be cooled is in direct contact with the heat-dissipating gas, for example air, and cools through evaporation away.

If you send the gas through such a thing at high speed Trickle cooler, in order to increase the cooling capacity, it can happen that the Liquid is forced together or entrained by the rapidly flowing gas.

The present invention is based on the object of a trickle installation body for an evaporative cooler to create which higher flow velocities of the gases to be cooled and thus an increased cooling capacity.

This object is achieved according to the invention in that the trickle built-in body corrugated in one direction with a relatively large amplitude and in one to the first direction is corrugated perpendicular second direction with a relatively smaller amplitude. In one The evaporative cooler constructed from such trickle built-in bodies flows to the cooling liquid by gravity along the wave crests and troughs of the large corrugation downwards and the gas in countercurrent upwards.

By the waves extending perpendicular to the first direction relatively smaller amplitude, which is transverse to the direction of flow the liquid to be cooled extend, this liquid to be cooled becomes uniform distributed. It is thus ensured that the layer of liquid to be cooled is always as even and thin as possible on the donkey body, so that the risk of that this liquid is entrained by rapidly flowing gas is considerably reduced is.

To such trickle built-in body for evaporative cooler to an evaporative cooler To be able to sew together, they each point on the outside of the wave crests and troughs the corrugation with large amplitude coupling cams.

In the drawing is an advantageous embodiment of the invention shown schematically. The figures show: FIG. 1 one made from trickle built-in bodies according to the invention assembled section of an evaporative cooler and Fig. 2 is a longitudinal section the line II - II of FIG. 1.

I @ Fig. 1, the liquids and gases flow against each other and perpendicularly to the sign @ ene. The trickle installation sheets are perpendicular to this direction of flow 2, 4, 6, 8 and 10 are corrugated in the manner shown with a relatively large amplitude. As the section along the line II - II (Fig. 2) shows, the trickle installation sheets 2, 4, 6, 8, 10 perpendicular to the first direction, i.e. in the direction of flow, a second Corrugation with a lower amplitude. The vertex lines of these wave crests to one side or the other are in 'ig. 1 marked with 10a and 10b.

on both sides there are coupling cams on the wave crests of large amplitudes 12, 14, 16 arranged through which different pebble built-in bodies with one another are coupled to an evaporative cooler.

The described execution of the trickle built-in body results even only a slight loss of pressure in the gases flowing through.

This gives a space-saving pebble cooler with a high cooling capacity, that works with little energy.

Claims (2)

P a t e n t a n s p r ü c h e 1. Flieseleinbaukörper made of metal, plastic or the like for Evaporative cooler, characterized in that the body (2, 4, 6, 8, 10) in one Direction wavy with a relatively large amplitude and in a direction perpendicular to the first direction the second direction is wavy with a relatively greater amplitude. 2. trickle built-in body according to claim 1, characterized in that each outside, at the wave crests and troughs of the corrugation with a large amplitude, Coupling cams (12, 14, 16) are arranged on.