WO2015122803A1 - Fan for moving hot gases - Google Patents

Abstract

The invention relates to the field of mechanical engineering and concerns fans intended for moving high-temperature gaseous media. The present fan comprises a working chamber having an impeller disposed therein which is fastened to a driven shaft, a coupling comprising a driving half coupling, integrated with a driving shaft, and a driven half coupling, attached to the driven shaft, said driving and driven half couplings being mounted spaced apart, and an electric motor. The coupling is in the form of a flange coupling, the hubs of the driving and driven half couplings are connected to flanges by means of blades equally spaced on the circumference, and the flanges of the driving and driven half couplings are provided with ventilation holes. The driving shaft is connected to a shaft of the electric motor by means of a V-belt drive. The invention is directed to enhancing the reliability of the design by intensifying the process of cooling the fan shaft, while at the same time simplifying the structure of the device and reducing energy consumption.

Description

 Hot gas fan

 Technical field

 The invention relates to the field of engineering, for fans designed to move high-temperature gas environments and can be used to circulate a gas medium in furnaces for heat treatment of building products.

 State of the art

 A fan for hot gases is known (see copyright certificate SU 1209938, IPC: F04D 29/58, published 07.09.1986), comprising a shaft cantilever mounted in the bearing support, an impeller mounted thereon and a shaft cooling device including a disk located between the wheel and the support. The disk has wavy surfaces from the ends and is made of highly heat-conducting material. Due to the large surface and thermal conductivity of the disk, a significant part of the heat flux is diverted to the atmosphere, which prevents overheating of the bearing support and its failure. However, the design of the fan does not provide for a thermal barrier on the shaft, which significantly limits the temperature range of the transported gas environments.

The closest in design features to the claimed fan is a centrifugal pump with a magnetic coupling for pumping molten metals and hot media (see patent RU 2488716, IPC: F04D 7/06, publ. 07.27.2013), containing an electric motor, a working chamber in which placed the impeller mounted on the driven shaft, a coupling comprising a leading coupling half combined with a driving shaft and a driven coupling coupling fastened to the driven shaft, the driving and driven coupling halves being installed with a clearance. The gap between the coupling halves serves as a thermal barrier preventing the transfer of heat from the pump housing to the motor. However, the placement of the magnetic coupling in a sealed motor chamber does not provide efficient heat removal from the drive shaft, which leads to significant heating bearings and their quick failure. In addition, the magnetic clutch used is difficult to manufacture, and for evacuating the sealed motor chamber, it is necessary to install an additional pump for pumping out the gas medium, which leads to an increase in the cost of the structure as a whole and increased energy consumption.

 Disclosure of invention

The claimed invention solves the problem of increasing the reliability of the design of the fan for moving hot gases by intensifying the cooling process of the fan shaft while constructively simplifying the device and reducing power consumption.

 The problem is solved in that in the fan for moving hot gases containing the working chamber, in which the impeller is mounted, mounted on the driven shaft, a clutch including a leading coupling half combined with a driving shaft and a driven coupling half attached to the driven shaft, the driving and the driven coupling halves are installed with a gap, and the electric motor, according to the claimed invention, the coupling is made in the form of a flange coupling, the hubs of the driving and driven coupling halves are connected to the flanges by means of uniformly installed around the circumference of the blades, and the flanges of the leading and driven half couplings are equipped with ventilation holes.

 The connection of the hubs of the coupling halves with the flanges by means of the blades arranged uniformly around the circumference allows eliminating heat transfer directly from the hub of the driven coupling half to its flange and from the flange of the driving coupling half to its hub. When the fan operates, the half-coupling blades rotating, transfer heat to the transferred atmospheric air. In this case, the coupling is intensively cooled and the heat removal from the driven shaft is increased. At the same time, the implementation of the flanges of the coupling halves with ventilation holes makes it possible to further ventilate the gap between the leading and driven coupling halves, thereby increasing heat dissipation.

 The use of a flange coupling to connect the fan shaft allows you to simplify the design of the device and reduce power consumption.

In the study of other known technical solutions in this technical field, no solutions have been identified that have similar distinctive signs aimed at solving the problem, which allows us to conclude that the claimed technical solution meets the criterion of "inventive step".

 In the particular case of the device, the driving and driven coupling halves are connected by fastening elements arranged uniformly around the circumference of the flanges in the form of bolted connections, which is aimed at simplifying the installation and dismantling of the fan.

 It is advisable to place an annular gasket of heat-insulating material between the flanges of the driving and driven coupling halves around the circumference, which further prevents the transfer of heat from the driven shaft to the drive shaft.

 The flanges of the coupling halves are equipped with shoulders oriented in opposite directions from each other, which makes it possible to stiffen the flanges and prevent them from bending when heated.

 The execution of the driven half-coupling of heat-resistant material provides reliability and a high service life of the fan when moving high-temperature gas environments.

 In order to increase thermal protection of the electric motor, the drive shaft is connected to the electric motor shaft by V-belt transmission.

 Brief Description of the Drawings

The invention is illustrated by the accompanying drawings, which depict:

 in FIG. 1 - general view of the device;

 in FIG. 2 - longitudinal section of the coupling;

 in FIG. 3 - coupling half.

An embodiment of the invention

The fan for moving hot gases contains a working chamber 1, in which an impeller 2 is mounted, mounted on a driven shaft 3, a clutch including a driving coupling 5 combined with the driving shaft 4 and a driven coupling half 6. connected to the driven shaft 3. The driving and driven coupling halves mounted with a gap 7. The hubs 8, 9 of the driving and driven half couplings are connected to the flanges 10, 1 1 by means of the blades 12 mounted uniformly around the circumference, and the flanges 10, 11 of the driving and driven half couplings are provided ventilation holes 13. The leading 5 and 6 driven half-couplings are connected by fasteners in the form of bolted joints 14 arranged uniformly around the circumference of the flanges 10, 11. An annular gasket 15 of heat-insulating material, for example, asbestos, is placed between the flanges 10, 11 of the driving and driven half-couplings . The flanges of the coupling halves are provided with collars 16 oriented in opposite directions from each other. The driven coupling half is made of heat-resistant material, for example, heat-resistant steel. The working chamber 1 has an inlet pipe 17 and an output pipe 18. The drive shaft 4 is connected to the shaft of the electric motor 19 by means of a V-belt transmission 20.

 A fan for moving hot gases works as follows.

When the electric motor 19 is turned on, the rotation through the V-belt drive 20 is transmitted to the drive shaft 4 and through the coupling to the driven shaft 3. The rotating impeller 2 draws hot gases through the inlet pipe 17 from under the kiln firing zone and delivers it to the brick pre-heating zone through the outlet pipe 18 . In this case, the driven shaft 3 and the hub 9 of the driven half coupling are heated. Rotating, the blades 12 of the clutch create a stream of cold air, are cooled by themselves and prevent the transfer of heat to the drive shaft 4 of the fan.

 As a result of the application of the proposed fan for moving hot gases, the operating characteristics are increased and the service life of the fan shaft bearings is increased, protection against premature breakdowns is achieved, in addition, operating costs are reduced, and the efficiency and reliability of the device are increased.

Claims

Claim

1. A fan for moving hot gases, comprising a working chamber in which an impeller is mounted, mounted on a driven shaft, a clutch including a driving coupling half combined with a driving shaft and a driven coupling coupling attached to the driven shaft, the driving and driven coupling halves being installed with a clearance and an electric motor, characterized in that the coupling is made in the form of a flange coupling, the hubs of the driving and driven half couplings are connected to the flanges by means of blades mounted uniformly around the circumference, and the flanges of the driving and driven olumuft equipped with ventilation holes.

 2. The fan according to claim 1, characterized in that the driving and driven coupling halves are connected by fastening elements arranged uniformly around the circumference of the flanges in the form of bolted connections.

 3. The fan according to claim 1, characterized in that an annular gasket of heat-insulating material is placed around the circumference between the flanges of the driving and driven coupling halves.

 4. The fan according to claim 1, characterized in that the flanges of the coupling halves are provided with shoulders oriented in opposite directions from each other.

 5. The fan according to claim 1, characterized in that the driven coupling half is made of heat-resistant material.

 6. The fan according to claim 1, characterized in that the drive shaft is connected to the motor shaft by means of a V-belt drive.