DEP0049459DA - Device for cooling liquids with air - Google Patents

Description

The main patent relates to a device for cooling liquid, beisp. Water by means of air, esp. A trickle surface cooler with built-in cooler built-in according to the modular system, which consist of individual plates assembled into grids (so-called trickle plate grids), preferably made of asbestos cement, and in vertical arrangement without a fixed connection with the neighboring grids, supported by them only in their vertical position, and thus only rest on girders by virtue of their weight.

The invention consists in producing the cooling elements from plate grids with recesses of any shape, but preferably with horizontal slots. This significantly simplifies the manufacturing process for the element of the built-in cooler.

The trickle plate grids are expediently provided with right-angled recesses at the lower ends of their side edges, the vertical edges of which lie as guide edges and the horizontal edges of which lie on or on the beams as support edges. Loosely suspended spacers with a widened head end are advantageously used to determine the exact distance between the filler grids. The latter can have a fork and thus rest astride the edges of the trickle grid and thus keep two or more trickle plate grids at the desired distance from one another. It appears useful to graduate the distance between the filler grids by varying the thickness of the spacers, because the air permeability of cooler installations in the vertical direction depends on the ratio of the free gap cross-sectional area to the total cross-sectional area. You can therefore make the air resistance within the built-in cooler larger or smaller by choosing different thicknesses of the spacers. This measure makes it possible, for example. to bring about greater ventilation in the center of the cooling tower and thus compensation for the zones near the air inlet.

The drawing shows an embodiment of the subject matter of the invention as an example.

Show it:

Fig. 1 is a view of a trickle plate grid with a beam in cross section and

Fig. 2-4 a cross-section through side-by-side arranged filler plate grids with spacers in view.

The trickle plate grids according to Fig. 1 are made of full plates 1 provided with horizontal slots 8, whereby the trickle speed of the water flowing off along the grate has been effectively reduced and the cooling effect has been improved accordingly. The figure also shows that they have rectangular filler grids at their two ends up to almost half their height at right-angled cutouts 7, with the horizontal edges of which they rest on the beams 3, as shown on the left-hand side of the drawing, and their vertical edges on the beams are led. By reducing the vertical distance between the grid's centers of gravity and the support level, the grids are held more securely in their position as a result of the reduction in the overturning moment.

For the horizontal spacing of the individual grids, according to Fig. 2, loosely suspended, provided with a widened head, preferably made of asbestos cement strips, intermediate pieces 2 can be used, which offers the advantage of interchangeability compared to the spacers firmly connected to the grid and simplifies production . A good holding of the spacers is also achieved by giving them a hairpin or pliers-like fork shape and riding on the upper edge of the trickle grid. The thickness of the spacers according to Fig. 3 and 4 can be made equal to either half or the entire width of the gap between the trickle grids, in the latter case only every second grid needs to be provided with spacers.

Claims (5)

1.) Device for cooling liquid by air, ex. Trickle surface cooler with built-in coolers according to the modular system, loosely inserted with spacers in between, according to the main patent patent application p 134 Ia / 17e D, characterized in that the cooling elements consist of plate grids (1) with recesses of any shape, preferably horizontal slots (8). 2.) Device according to claim 1, characterized in that the plate grids (1) are provided at the two lower ends of their side edges with right-angled recesses (7) whose vertical edges are as guide and whose horizontal edges are as support edges on the beams 3 . 3.) Device according to claim 1 and 2, characterized in that an exactly horizontal distance between the plate grids is effected by loosely suspended spacers (2) provided with a widened head end (Fig2) 4.) Device according to claim 1-3, characterized in that the spacers (2) are forked and rest on the edges of the trickle grid. (Fig.3 and 4) 5.) Device according to claim 1-4, characterized in that the thickness of the spacers (2) is graduated in accordance with the ventilation conditions within the overall cooling unit.