RU2071022C1 - Cooling tower water catcher - Google Patents

Abstract

FIELD: devices for catching water and discharging it from cooling towers. SUBSTANCE: water catcher has grate of Y-shaped plates 1 which have inclined sections 2 and 3 and central flat section. Water catcher grate is formed by fixing members 6 and spacer members 11. Convex surface of plates 1 is provided with longitudinal corrugations. Members 6 are made in the form of rods with different forms of cross sections. Tubular members 11 are provided with circular or helical projections on their outer surfaces. EFFECT: enhanced efficiency. 6 cl, 9 dwg

Description

 The invention relates to a device for collecting and discharging water in tower cooling towers of recycled water supply enterprises.

 Known catcher cooling tower, containing placed in tiers of lattice installed in each tier at opposite angles, made between the plates of the walls to form longitudinal channels, while the plates are installed in the slots of the rails (1).

 The main disadvantages of such a catcher are cumbersome, design complexity, low manufacturability of assembly and installation in the cooling tower, as well as low water collection efficiency due to the lack of means of orderly removal of moisture, the presence of secondary humidification, high aerodynamic losses due to the presence of additional fixing and installation tools that do not affect water separation, but only introducing additional resistance.

 The closest in technical essence and the achieved result is a cooler water trap containing V-shaped plates with a central flat section and grooves on the surface, assembled into the grid by means of vertical sections of tubular spacing and fixing elements located in the mounting holes, the last of which are on the mounting section with a plate made with a profile adequate to the profile of the mounting holes of the plates (2).

 The main disadvantages of the known catcher are the complexity of the fastening elements, the unreliability of the assembly and fixation of the plates, the insufficiently high efficiency of collection and removal of separated moisture, the secondary humidification of the air flow due to the destruction of the flowing film of water on the smooth surfaces of the plates.

 The invention eliminates these disadvantages.

 The technical result is achieved in that in a water catcher cooling tower containing V-shaped plates with a central flat section and grooves on the surface, assembled into the grid by means of vertical sections of tubular spacing and fixing elements located in the mounting holes, the last of which are made with profile adequate to the profile of the mounting holes of the plates, the grooves on the surface of the plates are made in the form of transverse corrugations forming on the opposite side of the plate Astin corresponding protrusions, and placed in areas between the mounting holes, the locking elements are made in the form of rods with a cross section in the form of a polygon, and the spacing elements are strung on the rods and made with the outer surface in the form of alternating protrusions and depressions. In addition, the locking elements can be made with a profile in the form of a hexagon with alternating rectilinear and curvilinear sides. The locking elements can be made with a triangular profile, with a rectangular profile. The protrusions on the outer surface of the spacing elements are made along a helical line or annular.

 In FIG. 1 shows a dehumidifier for a cooling tower, general view: in FIG. 2 shows the implementation of the plates; in FIG. 3 shows an embodiment of a fixing rod with a cross section in the form of a hexagon; in FIG. 4-7 the implementation of the rod with triangular and rectangular sections; in FIG. 8 execution of the rod in the form of a channel; in FIG. 9 shows the implementation of the spacing elements in the form of pipe segments with screw corrugations with protrusions on the outer surface along a helical line.

 The cooler water trap contains V-shaped plates 1 with inclined sections 2, 3 and a central flat section 4. On the outer convex surface of the plates 4, grooves 5 are made in the form of transverse corrugations forming, respectively, protrusions on the opposite concave surface. Moreover, the grooves 5 can be made with corrugations of a triangular, rectangular, etc. cross section. The plates 2 are assembled into the lattice by means of fixing elements 6 made in the form of rods with a cross section in the form of a polygon, for example, a hexagon 7 (Fig. 3) with alternating rectilinear and curvilinear sides 8, 9, respectively. In addition, the locking elements 6 can be made with a triangular profile (Fig. 4), with a rectangular profile (Fig. 5), and also rectangular, as shown in Fig. 6, 7, 8. The fixing elements 6 are placed in the mounting holes 10 of the vertical sections 4 of the plates 1, made with a profile adequate to the profile of the fixing elements 6. Between the plates 1 on the fixing elements 6 are installed tubular spacing elements 11, which together with the fixing elements 6 form grid plate 1 water trap. On the outer surface of the spacing elements 11, protrusions 12 are made along a helical line or annular. The end sections of the rods 6 can be equipped with additional plugs or fused in one piece with the plates 1.

 Wet air in the tower enters the channels between sections 3, 4, 2 of the plates 1, is subjected to inertial and gravitational separation. Additionally, humid air is exposed to the corrugated surfaces of the spacing elements 11. The resulting film of water is directed to the outer surface of the plates 1 and, with the help of the grooves 5, a regular drainage of the separated water in the cooling tower is organized.

Claims (6)

 1. A water trap for a cooling tower containing U-shaped plates with a central flat section and grooves on the surface, assembled into the grating by means of vertical sections of tubular spacing and fixing elements placed in the mounting holes, the last of which in the mounting section with the plate are made with a profile adequate to the installation profile the holes of the plates, characterized in that the grooves on the surface of the plates are made in the form of transverse corrugations forming on the opposite side of the plates e protrusions, and placed in the areas between the mounting holes, the locking elements are made in the form of rods with a cross-section in the form of a polygon, and the spacing elements are strung on the rods and made with the outer surface in the form of alternating protrusions and depressions.  2. A water catcher according to claim 1, characterized in that the locking elements are made with a profile in the form of a hexagon with alternating rectilinear and curved sides.  3. A water catcher according to claim 1, characterized in that the locking elements are made with a triangular profile.  4. A water catcher according to claim 1, characterized in that the locking elements are made with a rectangular profile.  5. A water trap according to claim 1, characterized in that the protrusions on the outer surface of the spacing elements are made along a helical line.  6. A water catcher according to claim 1, characterized in that the protrusions on the outer surface of the spacing elements are circular.

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