RU2355967C2 - Mechanical-draft cooling tower - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: invention relates to contact coolers, namely to mechanical-draft cooling tower design, and can be used in chemical and power industry enterprises to cool recycling water. A mechanical-draft cooling tower comprises a body with a diffuser in the upper part, air inlet ports and a basin in the lower part and a drop catcher as well as a water distribution system and a sprinkler inside. An electric drive of a fan blade wheel is mounted in the upper tower part; at least two parallel beams are fixed in the upper part with two cross beams being fixed between them so that to form a central square opening for the installation of the electric drive of the fan blade wheel above the drop catcher. The electric drive is made as a gear motor placed in the cylindrical casing with a metal square plate serving as a base and being welded to the cylindrical casing; the casing base is fitted with gusset plates welded to the cylindrical casing and the casing base; the corner base parts between the plates are fitted with holes for attaching the base to the beams forming the square opening. Relation of the height of the electric drive casing to its outer diametre amounts to 1.4-2.7. The upper part of the cylindrical casing is equipped by a support metal plate with a central opening coaxial to the axis of the cooling tower diffuser. A metal flat round flange where a gear motor is hanging is fixed on the support plate; the shaft of the electric drive gear motor of the fan blade wheel is passed through the central opening of the flange.

EFFECT: increasing the efficiency of the mechanical-draft cooling tower operation due to reducing aerodynamic resistance of the cooling tower flow section along with decreasing expenditures on the assembly and maintenance of the cooling tower blade fan.

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Description

The invention relates to contact coolers, in particular to the design of a fan cooling tower, and can be used at enterprises of the chemical and energy industries for cooling circulating water.

Known fan cooling tower, comprising a housing with a diffuser in the upper part, air intake windows and a pool in the lower part and a drip trap, a water distribution system and an irrigation system inside the housing, while the vertical water supply pipe of the water distribution system coaxially with the diffuser is installed in the housing, with emphasis on which the impeller electric drive is mounted a fan including a gearbox and an electric motor located next to it on a radially located beam (see US patent No. 4543218, class F28F 25/04, 09.24.19 85).

The implementation of a fan cooling tower with a fan located on a vertical water supply pipe leads to aerodynamic losses, thereby reducing the efficiency of this cooling tower. In addition, the open arrangement of both the gearbox and the motor in the stream of moist air imposes additional requirements on the tightness of the motor housing and the gearbox, as well as the corrosion resistance of the materials of the motor casing and the gearbox, which, in turn, complicates the design of the fan and increases its cost , as well as the need for constant monitoring of their condition.

The closest in technical essence and the achieved result is a fan cooling tower containing a casing with a diffuser in the upper part, air intake windows and a pool in the lower part and a drip trap, a water distribution system and an irrigation system inside the casing, while the fan blade wheel drive is located in the upper part of the casing (see US No. 3712760, CL F28F 25/00, 01/23/1973).

The implementation of the fan cooling tower with an electric fan blade wheel located in the upper part of the casing made it possible to simplify the design of the fan cooling tower.

However, the implementation of the electric drive of the fan impeller in the form of separate, independently mounted on the frame of the motor housing and the gearbox, interconnected by means of a coupling, on the one hand, simplified the routine and repair work of the electric drive, but, on the other hand, led to the need to separately seal the motor and gearbox, as well as the coupling, and the need to perform a large number of sealed movable joints for rotating shafts of the gearbox and electric motor, which their design is difficult and, as a consequence, led to a decrease in the reliability of their work. In addition, such a separate implementation has led to a complication of installation work, the need to debug the operation of the electric drive at the installation site and increased aerodynamic drag in the diffuser.

The objective of the present invention is to simplify the installation and installation work and reduce the aerodynamic drag of the flow path of the fan tower.

The technical result achieved by the implementation of the invention is to increase the efficiency of the fan tower by reducing the aerodynamic resistance of the flow part of the fan tower while reducing the cost of assembly and maintenance of the blade fan of the tower.

This problem is solved, and the technical result is achieved due to the fact that the fan cooling tower contains a housing with a diffuser in the upper part, air intake windows and a pool in the lower part and a drip trap, a water distribution system and an irrigation device inside the housing, while the blade wheel electric drive is located in the upper part of the housing fan and at least two parallel beams are fixed, between which at least two transverse beams are fixed with the formation of a central square hole for m floor above the droplet eliminator of the electric drive of the fan impeller, while the electric drive is made in the form of a gear motor located in a cylindrical body with a base welded to the cylindrical body in the form of a square metal plate, power scarves welded to the cylindrical body and the base of the body are installed on the base of the body , between the power scarves in the corner parts of the base there are holes for attaching the base to the beams forming a square hole, the ratio of height to the electric drive’s diameter to its outer diameter is from 1.4 to 2.7, and in the upper part the cylindrical body is made with a supporting metal plate with a central hole coaxial to the axis of the tower diffuser, and a metal flat round flange is fixed to the supporting metal plate through the central hole which the shaft of the fan blade of the fan wheel suspended on the round flange of the gear motor of the electric fan is brought out.

In the course of the study of the operation of fan cooling towers, in particular diffusers of cooling tower fans, such a design of the electric drive of the fan impeller was developed, which made it possible to create a modular design of the electric drive that can be almost completely assembled outside the cooling tower, and then assembled in assembled form in the beams at the top cooling towers, while the design of the electric drive due to the streamlined cylindrical shape of the casing of the electric drive creates a minimum aerodynamic drag in the tower e flowing resistance through the housing, and the heated air diffuser. This was achieved due to the fact that the electric drive of the fan impeller is completely located in the cylindrical body and the only movable structural element that protrudes from it is the gear shaft, on which the impeller is worn.

The second problem, which is solved in this invention, allows you to assemble the tower from structurally simple similar structural elements, which leads, on the one hand, to simplify the assembly of the cooling tower fan at the installation site, and, on the other hand, to unify the structural elements of the fan cooling towers calculated at various capacities, which ultimately leads to an increase in the quality of assembly and lower costs of manufacturing and maintenance of fan cooling towers.

This result was achieved due to the fact that in the upper part of the shaft above the drip catcher, using the channels made of rolled metal, a support, simple in design, is assembled for the electric drive housing, containing at least two parallel beams, between which at least two transverse beams are fixed beams with the formation of a central square hole for mounting above the drip trap of the electric fan blade of the fan, overlapping with the support of these beams with a square metal plate - the base of baleen drive. In the analysis of various designs of gearboxes and electric motors, it was found that the best results from the point of view of placing the motor-reducer bundle in the casing at the lowest aerodynamic resistance of the motor casing were achieved with a ratio of the height of the casing of the electric drive to its outer diameter of 1.4 to 2, 7,

The implementation in the upper part of the cylindrical body of the supporting metal plate with a Central hole coaxial to the axis of the diffuser of the tower, and fixing on the supporting metal plate of a metal flat round flange, through the central hole of which the shaft suspended on a round flange and made in the form of a gear motor for the electric drive of the fan impeller , allows you to create a module that can be assembled outside the tower and then installed in it when assembling the latter, which greatly simplifies and speeds up the assembly Orc cooling tower equipment.

Figure 1 shows a longitudinal section of a fan cooling tower.

Figure 2 presents a side view of an electric drive with a gear motor installed in it.

Figure 3 presents a top view of the housing of the electric drive.

The cooling tower contains a housing 1 with a diffuser 2 in the upper part, air intake windows 3 and a pool 4 in the lower part and a drip trap 5, a water distribution system 6 and a sprinkler 7 inside the housing 1. In the upper part of the housing 1 there is an electric drive 8 of the fan blade wheel 9 and fixed, at least two parallel beams 10, between which at least two transverse beams (not shown) are fixed with the formation of a central square hole for mounting above the drop catcher 5 of the electric drive 8 of the impeller 9 fans. The electric drive 8 is made in the form of a gear motor 18, placed in a cylindrical body 11 with a base 12 made in the form of a square metal plate, welded to the cylindrical body 11. On the base 12 of the body 11 are installed power scarves 13, welded to the cylindrical body 11 and the base 12 of the body 11. Between the power scarves 13 in the angular parts of the base 12, holes 14 are made for attaching the base 12 to the beams 10 forming a square hole. The ratio of the height "H" of the housing 11 of the electric drive 8 to its outer diameter "D" is from 1.4 to 2.7. In the upper part, the cylindrical body 11 is made with a supporting metal plate 15 with a central hole coaxial to the axis of the tower diffuser 2, and a metal flat round flange 16 is fixed to the supporting metal plate 15, through the central opening of which a shaft 17 of the gear motor suspended from the round flange 16 is brought out 18 electric drive 8 of the impeller 9 of the fan.

The fan impeller 9, which rotates from the electric drive 8, draws air into the casing 1 through the intake windows 3 made in the lower part of the casing 1 of the cooling tower. Water is supplied through the water distribution system 6 to the spray nozzles 19, from where it drops onto the surface of the sprinkler 7, which fills a large part of the volume between the pool 4 and the spray nozzles 19 of the water distribution system 6, through which water in the form of a thin film flows into the pool 4. In this case, the flowing film of water is blown by a stream of air ha created by the impeller 9 of the fan. Atmospheric air is blown through the sprinkler 7, which contributes to its intense saturation with evaporated moisture over the entire height of the sprinkler 7 and intensive cooling of the water. The heated air by the fan blade wheel 9 through the diffuser 2 is released into the atmosphere, and the drip tray 5 prevents the droplets of liquid from being taken away from the cooling tower together with the air flow created by the fan blade wheel 9.

The present invention can be used in fan cooling towers for cooling water in water circulation systems of industrial enterprises with direct contact of the cooled water and its cooling air.

Claims (1)

A fan cooling tower comprising a casing with a diffuser in the upper part, air inlets and a pool in the lower part, and a droplet eliminator, a water distribution system and a sprinkler inside the casing, while the upper part of the casing contains an electric fan blade wheel, characterized in that the upper part of the casing is fixed, at least two parallel beams, between which at least two transverse beams are fixed with the formation of a central square hole for mounting above the droplet eliminator electro the drive of the fan impeller, while the electric drive is made in the form of a gear motor located in a cylindrical body with a base welded to a cylindrical body in the form of a square metal plate, power scarves welded to the cylindrical body and the base of the body are installed between the power kerchiefs in the corner parts of the base are made holes for attaching the base to the beams forming a square hole, the ratio of the height of the housing of the electric drive to its outer the diameter is from 1.4 to 2.7, and in the upper part the cylindrical body is made with a supporting metal plate with a central hole coaxial to the axis of the tower diffuser, and a metal flat round flange is fixed to the supporting metal plate, through the central opening of which a suspended shaft on the round flange of the gear motor of the fan impeller electric drive.

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