PL73792Y1 - Axial fan adapted to change flow parameters - Google Patents

Abstract

The subject of the application is an axial fan adapted to change flow parameters. This objective was achieved by external (3) and internal (10) corrective inserts regulating the active part of the rotor palisade.

Description

Description of the design: The subject of the utility model is an axial fan, in which it is possible to change the cross-section of the flow channel, and consequently, the flow parameters. Within the group of working machines, fluid-flow machines, including fans, occupy a significant position. There are two basic types of fans: axial and radial, depending on the direction of the flow of the medium being pumped through the impeller. Both types are widely used; the choice of type depends on the user's requirements and wishes. Both axial and radial fans have advantages and disadvantages. In general, it should be stated that axial fans are more difficult to manufacture but easier to install, compared to radial fans. This is due to the technology used to make the impeller blades and the dimensions of axial fans. A particularly important advantage of axial fans is the ability to adjust flow parameters by changing the angle of the rotor blades, both when the fan is stationary and in motion. It should be emphasized that the design and manufacturing technology of centrifugal fan rotors with adjustable blade tips have recently advanced. This is known from patents such as PL 230491; PL 230837, and PL 239647. These solutions have significantly improved the performance of centrifugal fans in terms of economically changing flow parameters, but they still have not reached the level of controllability of axial fans. In the field of fans, especially axial fans, monoblock designs are known, in which the fan rotor is mounted directly on the drive motor shaft, eliminating the need for bearings. The drive motor, usually electric, is built into the inner casing of the steering element. Such solutions are known from patents PL 225265; PL 225476, and PL 232419, among others. In this type of design, the motor's dimensions, particularly the radial dimensions, are crucial, enabling the optimal diameter ratio—the inner rotor diameter to the outer rotor diameter. Occasionally, an optimally selected flow system causes motor overload. In such cases, a more powerful motor should be used or the rotor should be replaced with a less efficient one. Furthermore, it is sometimes necessary to reduce flow parameters at the lowest possible cost. This invention effectively solves this problem. The design presented in this invention allows for the change of the active cross-section of the flow channel. A known design solution for an axial fan is patent PL235103, which uses rings in the upper blade section in the space before the rotors to reduce the negative impact of the upper blade gap. Tests confirmed the effectiveness of this type of solution when the upper blade gap was significantly larger than the optimal size. It should be noted that this did not result in a reduction in performance. In this case, the performance increased slightly at the expense of higher fan efficiency. The present invention primarily focuses on reducing flow parameters and reducing the load on the drive motor. The aim of the invention is to develop an axial fan design that allows for the change of the active section of the rotor's palisade, and consequently, changes in flow parameters. An axial fan adapted to change flow parameters is characterized by a corrective insert installed in the flow channel, on the outer diameter D2, upstream of the impeller. This insert consists of a cone stiffened with a flange for mounting between the confusor flange and the flange of the over-blade element. Preferably, a ring is welded to the cone of the external corrective insert, positioned parallel to the blade inlet edge and supported by the outer casing of the over-blade element. It should be emphasized that the essence of the invention is the elimination of the rotor palisade section on the outer diameter D2, which allows for changing flow parameters using a method significantly more advantageous than throttling. The subject of the utility model is presented in the drawings, in which Fig. 1 shows an axial cross-section of an axial fan in a monoblock arrangement, Fig. 2 – an axial cross-section of a two-stage axial fan, Fig. 3 – an axial cross-section of an external corrective insert. An axial fan adapted to change the flow parameters, in which a corrective insert 3 is installed in the flow channel 1 on the outer diameter D2 in front of the impeller 2, consisting of a cone 4 stiffened with a flange 5 for mounting between the flange 6 of the inlet confusor 7 and the flange 8 of the over-blade member 9. A ring 10 is welded into the cone 4 of the outer corrective insert 33, positioned parallel to the inlet edge 11 of the blade 12 and resting on the outer jacket 13 of the over-blade member 9. EN