SU1130697A1 - Centrifugal blower - Google Patents

Abstract

1. A CENTRIFUGAL SUPPLYER, comprising a housing with a removable lid, in which an intake chamber with an axial port is placed, a rotor cantilevered behind the latter and guide vanes, characterized in that, in order to regulate and increase operational reliability, guide vanes are rigidly fixed to the inlet end of the axial nozzle, and in the case there is additionally placed an annular damper with a drive mounted at the entrance to the axial nozzle concentric to the latter, with the possibility of axial movement until complete overlap of guide vanes. 2. A blower according to claim 1, characterized in that the suction chamber is provided with a baffle of a streamlined profile with a central hole, and the drive is designed as a plunger with a servomotor, the plunger being mounted in the baffle hole with axial displacement, and the damper is fixed on partition part of the plunger. 3 1 / W G / / / / / / S WITH about the OR Figure 1

Description

This invention relates to a compressor assembly, a centrifugal supercharger.

A centrifugal supercharger is known in which an adjusting ring is mounted at the inlet to the impeller with the possibility of axial movement 1.

However, in such a supercharger, capacity control is associated with significant losses.

Closest to the invention in its technical essence and the effect achieved is a centrifugal supercharger, comprising a housing with a removable lid, in which an intake chamber with an axial nozzle, a rotor and guide vanes 2 mounted behind the latter are housed.

The disadvantages of the known supercharger are the lack of capacity control and low operational reliability.

The aim of the invention is to provide control and increase operational reliability.

This goal is achieved by the fact that in a centrifugal supercharger comprising a housing with a removable lid in which an intake chamber with an axial port is placed, a rotor and guide vanes cantileverly mounted behind the latter, the latter are rigidly fixed on the inlet end of the axial nozzle, and an annular ring is additionally placed in the body. a motorized valve installed at the entrance to the axial nozzle concentric to the latter with the possibility of axial movement until the guide vanes are completely blocked. In addition, the suction chamber of the supercharger is equipped with a baffle of a streamlined profile with a central hole, and the drive is designed as a plunger with a servo motor, the plunger is mounted in the bore hole with axial movement, and the valve is fixed on the part of the plunger protruding from the partition.

FIG. 1 shows a centrifugal supercharger, longitudinal section; in fig. 2 shows section A-A in FIG. one.

The centrifugal supercharger includes a housing 1 with a removable lid 2 in which the suction chamber 3 with an axial nozzle 4 is placed, a rotor 5 cantilever-mounted behind the latter and guide vanes 6 that are rigidly fixed on the inlet 7 of the freshly threaded nozzle 4, and additionally placed in the case 1 ring flap 8 with actuator 9.

The annular damper 8 is installed at the entrance to the axial nozzle 4 concentric with it with the possibility of axial movement until the guide vanes 6 are completely blocked. The suction chamber 3 is provided

the partition 10 has a streamlined profile with a central opening 11, and the actuator 9 is designed as a plunger 12 with a servomotor 13, the plunger 12 is mounted in the opening 11 of the partition 10 with the possibility of axial movement, and the damper 8 is fixed on the portion 14 of the plunger 12 projecting from the partition. blades 6 are installed at an angle Q (Fig. 2). The working stroke S of the annular valve 8 and

0 tip In axisymmetric annular space 15, located in front of the axial patrus 4, is equal to the width In the guide vanes 6. The rotor 5 with the impeller 16 is mounted in the housing 1 of the compressor 5 solo. A seal 17 is installed in the opening 11 of the partition 10 between the plunger 12 and the partition 10. The removable cover 2 and the partition 10 of the streamlined profile with the seal 17 form a closed cavity 18.

0 The supercharger works as follows.

At optimal performance, corresponding to the maximum efficiency value, the annular shutter 8 overlaps

5 guide vanes 6 across their entire width, while the flow smoothly flows around the partition 10, the annular shutter 8 and enters the axial nipple 4, supplying flow to the impeller 16.

0 The minimum flow rate of the supercharger is that the annular shutter 8 covers the axisymmetric annular space 15 across the entire width B, while the flow is directed to the axial nozzle 4, flowing around the grate of guide vanes 6 set at an angle b (Fig. 2).

The blades 6 impart a predetermined twist to the flow at an angle Q in the direction of rotation of the impeller 16, thereby decreasing the capacity and pressure of the supercharger.

At any intermediate position of the annular damper 8, part of the flow is twisted by blades 6, and part of the flow postus falls into the axial nozzle 4 through the axisymmetric annular space 15. Twisted by the blades 6, the flow, mixing with the axial flow, creates a total twist of the total flow through the angle Qj in accordance with condition

About q Q

depending on the axial position of the annular valve 8. The partition 10 of the streamlined profile and the seal 17 protects the plunger 12 from contamination and wear, while the location of the plunger 12 in the closed cavity 18 between the cover 2 and the partition 10 reduces the axial dimensions of the supercharger and its weight beyond by using a cover 2 of a special design with a minimum weight.

Thus, the proposed centrifugal supercharger provides regulation and improves operational reliability.

Claims (2)

1. CENTRIFUGAL LIGHT- TATEL, comprising a housing with a removable cover, in which there is a suction chamber with an axial nozzle, cantilevered behind the last rotor and guide vanes, characterized in that, in order to ensure regulation and increase operational reliability, guide vanes are rigidly fixed to the inlet end of the axial nozzle and in the housing an annular valve with an actuator is installed, which is installed at the inlet to the axial nozzle concentrically to the latter. with the possibility of axial movement to. complete overlap of the guide vanes. 2. Supercharger according to π. 1, characterized in that the suction chamber is provided with a partition of the streamlined profile with a central hole, and the actuator is made in the form of a plunger with a servomotor, the plunger installed in the hole of the partition with the possibility of axial movement, and the valve is mounted on the protruding part of the plunger from the partition. Figure 1