SU868127A1 - Axial compressor - Google Patents

Description

(54) AXIAL COMPRESSOR

Claims (2)

The invention relates to a compressor installation, and more specifically to compressors that are adjustable for air flow. Known adjustable compressor, Eoder. The axial stage consisting of the guide and the spraying apparatus and the impeller, which is located in the housing, and the guide apparatus has swiveling blades that allow adjusting the stage in terms of air flow II. The disadvantage of such a compressor is the lack of control efficiency of the stage and the whole the compressor, due to the absence of slotted devices, which allow simultaneous rotation of the blades of the guide vane to carry out gas dynamic flow control. The axial compressor is known, which is the closest technical solution to the invention, comprising a housing with an annular cavity communicated with the flow path through (using slots made in the spacer, over which the axially movable ring is mounted, and sequentially placed in the housing rotary blades, impeller and spraying unit 2. In such a compressor, it is adjustable by turning the blades of the guide rod to a smaller installation angle relative to the design position,. when the circumference of the flow velocity increases along the rotation, the flow ceases at the entrance to the impeller, the power component of which decreases the expenditure component at the periphery and increases at the hub.The aim of the invention is to reduce losses when the blades of the guide vanes turn. that the slits are located between the working wheel and the spraying apparatus, are made confuser, are oriented against the direction of rotation of the wheel, and a high pressure source is connected to the annular cavity. FIG. I shows the thermophotographic part of the axial compressor, longitudinal section; on Hr. 2 is a section A-A in FIG. 1. The axial compressor includes a housing 1 with an annular cavity 2 communicated with the flow part 3 by means of slots 4 made in the spacer 5, over which a ring 6 is movable in the axial direction. In housing 1 a guide 7 is placed with a blade rotation mechanism 8 equipped with a lever 9. The ring 6 is connected to the levers 9 by hinges 10, an impeller is mounted behind the guiding device 8. A directing device 12. The annular cavity 2 is connected to a high-pressure air source through channel 13. During operation calculated polo enii guide vanes aptsarata 7 ring 6 closes the communicating section slots 4. When the compressor rotation regulating blade guide unit 7 in the direction of reducing the setting angle of blades 6 ring peremettsaets levers 9 and increases about xopHbie sectional slits 4. FIG. 1 shows such a mutual position of the blades of the guide vane 7 and the ring 6 when the gaps 4 are completely open. High pressure air from the cavity 2 through the gaps 4 is directed to the flow part 3 against the direction of the surrounding component of the flow velocity behind the wheel 11 and reduces it which leads to a decrease in the magnitude of the positive angle of attack on the periphery of the blades of the triggering ashgaktrata 12. Reducing the angle of attack in the axial compressor described avoids flow disruption, reduces the pressure loss, improves the flow behind the apparatus which is important, but for the subsequent stages, and thus increases the efficiency of the compressor. Claims An axial compressor comprising a housing with an annular cavity communicated with the flow passage through slots made in a spacer, over which an axially movable ring is installed, and an inlet guide vane with rotary blades, an impeller and spraying the apparatus, characterized in that, in order to reduce losses when turning the blades of the guiding apparatus, the slots are located between the impeller and the spinning apparatus, are made confused and oriented They are opposed to the direction of rotation of the wheel, and a high pressure source is connected to the annular cavity. Sources of information taken into account in the examination 1. USSR author's certificate number 465488, cl. F 04 D 29/32, 1972. 2. USSR author's certificate number 566026, cl. F 04 D 19/00, 1975.