PL74377B2 - - Google Patents

Description

Priority: December 8, 1971 (P. 152006) Application announced: May 30, 1973 Patent description was published: January 27, 1975 74377 KI. 27c, 12/03 MKP F04d 29/26 Inventor: Wieslaw Janiszewski Authorized by the provisional patent: Stocznia im. Komuny Paryskiej, Gdynia (Poland) Centrifugal fan The present invention relates to a centrifugal fan intended, in particular, to circulate air. There is a known centrifugal fan consisting of a spiral housing and an impeller with radial blades. This solution has a number of disadvantages, which are significant, for example, in the ventilation of non-stationary welding stations in shipbuilding. The fan circulates the air continuously at a constant flow rate. With this method of transferring air, there are high flow resistance in the fan and in the ducts, caused by surface friction in turbulent flow. Due to the high flow resistance, the fans and ducts used are of large size, and the motors of high power are used to drive the fan. The fan operating point shifts towards low expenses, which makes it impossible to achieve the desired ventilation efficiency. As a result of the increase in fan dimensions, cable diameters and engine power, the weight and dimensions of the entire installation increase to sizes unacceptable for economic and technological reasons in shipbuilding conditions. The aim of the invention is to eliminate the above-mentioned disadvantages by reducing the flow resistance in the fan and connected to it According to the invention, a reduction in flow resistance is achieved in accordance with the invention due to the fact that a coaxially radial rotor is embedded in the cylindrical housing, provided with an outer ring channel delimited by enlarged discs and a coaxial cylinder with one or more cuts. The annular channel is divided by elongated blades, the outer edges of which are connected to the front, in the direction of rotation, cut edges of the cylinder. The ring-shaped rotor channel enables cyclical forcing the air to the discharge nozzles, ensuring the reduction of the flow resistance in the fan and the pipes connected to it, as a result of changing the turbulent motion into the laminar one. . Due to the significant reduction of pressure losses caused by surface friction, the weight and dimensions of the entire portable ventilation system are reduced, which makes it possible to use it in the conditions of circular construction. The subject of the invention is shown in examples of implementation in the drawing. in which Fig. 1 shows a fan with one cut in the cylinder in cross section, Fig. 2 - a fan with two cuts in the cylinder in cross section, The fan according to the invention consists of a cylindrical housing 1 and mounted in thereafter a coaxially radial rotor 2. A discharge nozzle 3 is attached to the housing 1. The rotor 2 consists of 743773 74377 4, depending on the rotational speed of the rotor 2 and the location and number of nozzles 3 and leakage 9. The air can be replaced by another medium. 5 PL PL

Claims (3)

1. Patent claim A radial fan consisting of 2 radial impellers and a casing, characterized in that in a 10 cylindrical casing (1) with one or more flow nozzles (3) a coaxial radial impeller (2) provided with the outer annular channel (7) delimited by the enlarged discs (4) d a coaxial cylinder (8) with one or more notches <9), where the channel (7) is divided by elongated blades (6) which the outer edges (10) are connected to the front edges (11) of the cutouts (9). Fig 1 Fig. 2 rjruik. Teohn. Bytom - z. 324 - 135 copies of two enlarged discs 4, between which the blades 5 and extended blades 6 are mounted. The ring channel 7 is limited by enlarged discs 4 and a coaxial cylinder 8 with one or more notches 9 The channel 7 is divided by elongated blades 6, the outer edges of which 10 connect to the leading, relative to the direction of rotation, edges 11 of the outlet 9. The fan shown in Fig. Ii has one notch 9 and one elongated blade 6, while the fan in the second embodiment in fig. 2. It has two notches 9 and two blade extensions 6. As a result of the rotation of the rotor 2, air flows between the blades 5, 6, and then through the channel 7 at a time when the cut-out 9 coincides with the flow nozzle. 3. The air flowing out of the discharge nozzle 3 has a high kinetic energy. The frequency of the pulses of the flowing air is usually PLN 10 PL