CN205036602U - Axial compressor - Google Patents

Abstract

The utility model discloses an axial compressor, this compressor have at least one -level acting level, should the acting level mainly constitute by the stator part and the rotor part of mutual correspondence, the stator part mainly by the casing, through the many piece quiet blades s of bearing assembly on the casing, the blade rotating shaft of these stator blades respectively with the casing on the quiet leaf blade angle guiding mechanism suit, axial feed be connected, the rotor parts mainly by the main shaft, assemble and move blades in main epaxial wheel hub, through bearing assembly many on wheel hub, the blade rotating shaft of these moving vanes respectively with the main shaft on the movable vane blade angle guiding mechanism suit, axial feed be connected. The utility model discloses an angular adjustment to quiet leaf, movable vane blade angle to it is the pressure energy with mechanical energy conversion that the gas that adapts to different wind speed, wind pressure, the amount of wind passes through axial compressor.

Description

A kind of Axial Flow Compressor

Technical field

The utility model relates to gas energy conversion equipment, specifically a kind of Axial Flow Compressor.

Background technique

Axial Flow Compressor utilizes the blade convection cell on high speed rotating impeller to do work, and improves the pressure energy of fluid.

In traditional axial-flow machines, the stator blade of Axial Flow Compressor, the blade angle of movable vane changeless, movable vane rotating speed at different levels is also the same.But the wind speed of the fluid wind-force under natural condition, blast, air quantity are all in one ceaselessly state of changing, and traditional axial-flow machines cannot meet.

Summary of the invention

The purpose of this utility model is: for above-mentioned the deficiencies in the prior art, provide a kind of can to the Axial Flow Compressor of the angular adjustment of stator blade, movable vane blade angle.

The technical solution adopted in the utility model is, a kind of Axial Flow Compressor, described compressor has at least one-level acting level, this acting level is primarily of mutually corresponding stator part and rotor part composition, described stator part primarily of housing, by the many piece stator blades composition of bearing assemble on housing, the blade rotor of these stator blades respectively with housing is set with, the stator blade blade angle regulating mechanism of axial feed is connected; Described rotor part primarily of main shaft, the wheel hub be assemblied on main shaft, by the many piece moving vanes composition of bearing assemble on wheel hub, the blade rotor of these moving vanes respectively with main shaft is set with, the movable vane blade angle regulating mechanism of axial feed is connected.

Described stator blade blade angle regulating mechanism is primarily of straight-line feed power source, throw-out collar, how secondary thrust switching mechanism composition, the output terminal of described straight-line feed power source is connected on throw-out collar, described throw-out collar is connected with how secondary thrust switching mechanism respectively, and every secondary thrust switching mechanism connects the blade rotor of a stator blade; Described thrust switching mechanism is rack-and-pinion or linkage mechanism; The gear set of described rack-and-pinion is on the blade rotor of stator blade, and the tooth bar of engaging gear is connected with throw-out collar; A connecting rod of described linkage mechanism is connected on the blade rotor of stator blade, is connected with throw-out collar with another root connecting rod that this connecting rod is hinged.

Described movable vane blade angle regulating mechanism is primarily of straight-line feed power source, pushing cylinder, bearing, push-plate and how secondary thrust switching mechanism composition, the output terminal of described straight-line feed power source is connected on pushing cylinder, described pushing cylinder is fixedly connected with the inner ring of bearing, described push-plate is fixedly connected on the outer ring of bearing, this push-plate is connected with how secondary thrust switching mechanism, and every secondary thrust switching mechanism connects the blade rotor of a moving vane; Described thrust switching mechanism is rack-and-pinion or linkage mechanism; The gear set of described rack-and-pinion is on the blade rotor of moving vane, and the tooth bar of engaging gear is connected with push-plate; A connecting rod of described linkage mechanism is connected on the blade rotor of moving vane, is connected with push-plate with another root connecting rod that this connecting rod is hinged.

The acting level of described compressor is multistage, and the rotor part of each acting level shares a main shaft, and described main shaft is connected with drive motor.

The acting level of described compressor is multistage, and the rotor part of each acting level is relatively independent.Further, the main shaft of described rotor part is assemblied in housing by supporting base, wheel hub by bearing assemble on main shaft, described main shaft is provided with motor stator, the rotor of corresponding motor stator is installed in wheel hub, described motor stator connects power supply, by power supply to the given driving current of motor stator.Or further, the main shaft of described rotor part is assemblied in housing by supporting base, wheel hub is fixedly assemblied on main shaft, described main shaft is provided with rotor, the motor stator of corresponding rotor is installed in described wheel hub, this motor stator is fixed on stator part by support, and described motor stator connects power supply, by power supply to the given driving current of motor stator.Or further, described rotor part is connected with drive motor, and the output shaft of this drive motor and the main shaft of rotor part are the same axis bar.

The beneficial effects of the utility model are:

1. the utility model achieves the angular adjustment to stator blade, movable vane blade angle, to adapt to the working condition requirement of different in flow rate, hydrodynamic pressure, flow.

2. the acting level of the Axial Flow Compressor in the utility model is multistage, the rotor part of each acting level is relatively independent, only need in the motor stator in a driving current input Axial Flow Compressor, make the rotor mutual cutting magnetic line together that the motor stator in acting level at different levels is corresponding with motor stator, just can drive acting level at different levels action, avoid the intervention of outside large power supply, improve working efficiency.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is further described.

Fig. 1 is a kind of structural representation of the present utility model.

Fig. 2 is the structural representation of the utility model every grade impeller.

Fig. 3 is the structural representation of movable vane in Fig. 2.

Fig. 4 is the partial structurtes schematic diagram of movable vane leaf vane angle regulating mechanism in Fig. 2.

Code name implication in figure: A1-housing; A2-stator blade; A3-stator blade blade angle regulating mechanism; B1-main shaft; B2-wheel hub; B21-chute; B3-moving vane; B31-blade rotor; B32-position-stopping plate; B4-movable vane blade angle regulating mechanism; B41-straight-line feed power source; B410-gear; B42-push rod; B43-substrate; B44-pillar; B45-outer ring; B46-push-plate; B47-tooth bar; B48-bearing; B49-inner ring; B5-rotor; B6-motor stator; B7-supporting base.

Embodiment

embodiment 1

Shown in Fig. 1, Fig. 2, Fig. 3, Fig. 4: the utility model is a kind of Axial Flow Compressor, described compressor has at least one-level acting level, and acting level is primarily of mutually corresponding stator part and rotor part composition.In the utility model, the acting level of Axial Flow Compressor is multistage, and the rotor part of each acting level is relatively independent.The main shaft B1 of the rotor part of each acting level is independent mutually.

Above-mentioned stator part is primarily of housing A1, consist of the many stator blade A2 of bearing assemble on housing A1, on this housing A1, the bearing of assembling has the degrees of freedom of the rotation of restriction stator blade A2 place blade rotor, the degrees of freedom of this rotation is less than 360 °, the blade rotor of these stator blades A2 respectively with housing A1 is set with, the stator blade blade angle regulating mechanism A3 of axial feed is connected.Wherein, stator blade blade angle regulating mechanism A3 is primarily of straight-line feed power source, throw-out collar, many secondary thrust switching mechanism compositions, (this straight-line feed power source can select screw jack to described straight-line feed power source, direct current generator, cylinder or oil cylinder etc.) output terminal be connected on throw-out collar, described throw-out collar is connected with how secondary thrust switching mechanism respectively, every secondary thrust switching mechanism connects the blade rotor of a stator blade A2, the wall thickness of housing A1 is run through in one end of this stator blade A2 rotating shaft, by the position-stopping plate location on the blade rotor of stator blade A2 place, the position-stopping plate of stator blade A2 place blade rotor is made to be positioned at housing A1 inner, and position-stopping plate and housing A1 inwall are fitted.This blade rotor part running through the wall thickness of housing A1 is connected with thrust switching mechanism, does axial to-and-fro motion with the throw-out collar on housing A1 outer surface; Described thrust switching mechanism is rack-and-pinion, and this rack-and-pinion is positioned at the corresponding chute offered on housing A1 outer surface; The gear set of described rack-and-pinion is on the blade rotor of stator blade A2, and the tooth bar of engaging gear is connected with throw-out collar.

Above-mentioned rotor part is primarily of main shaft B1, the wheel hub B2 be assemblied on main shaft B1, consist of the many moving vane B3 of bearing assemble on wheel hub B2, on this main shaft B1, the bearing of assembling has the degrees of freedom of the rotation of restriction moving vane B3 place blade rotor B31, and the degrees of freedom of this rotation is less than 360 °.The blade rotor B31 of these moving vanes B3 respectively with main shaft B1 is set with, the movable vane blade angle regulating mechanism B4 of axial feed is connected, one end of the blade rotor B31 of this moving vane B3 is installed with in wheel hub B2, the degree of depth of installing is determined by position-stopping plate B32, and the position-stopping plate B32 of moving vane B3 place blade rotor B31 and the corresponding surface of wheel hub B2 are fitted mutually, wherein, movable vane blade angle regulating mechanism B4 is primarily of straight-line feed power source B41, pushing cylinder (comprising pillar B44 and substrate B43), bearing, push-plate B46 and how secondary thrust switching mechanism composition, it is inner that described straight-line feed power source B41 is arranged on housing A1 by bearing B48, (this straight-line feed power source B41 can select screw jack, direct current generator, cylinder or oil cylinder etc.) output terminal of this straight-line feed power source B41 is connected to substrate B43 side, pushing cylinder place on the surface by push rod B42, away from straight-line feed power source B41 side substrate B43 opposite side on the surface with pillar B44 with line, face vertically connects, described pushing cylinder is fixedly connected with the inner ring B49 of bearing by the pillar B44 that many connect, described push-plate B46 is fixedly connected on the outer ring B45 of bearing, this push-plate B46 is connected with how secondary thrust switching mechanism, the blade rotor B31(that every secondary thrust switching mechanism connects a moving vane B3 specifically described pushing cylinder does straight line motion along the shaft axis of wheel hub B2, pushing cylinder arranges the bearing that two groups of groups are vertical with the shaft axis of wheel hub B2, bearing outer ring B45 is positioned at push-plate B46 chute B21, often organize an end contact of bearing and chute B21, this push-plate B46 is connected with how secondary thrust switching mechanism, push-plate B46 and how secondary thrust switching mechanism can often be done straight line motion along the shaft axis of wheel hub B2 and rotate with wheel hub B2), described thrust switching mechanism is rack-and-pinion, and this rack-and-pinion is positioned at the guide chute B21 that wheel hub B2 and push-plate B46 forms, the gear B 410 of described rack-and-pinion is sleeved on the blade rotor B31 of moving vane B3, and the tooth bar B47 of engaging gear is connected with push-plate B46.

Further, the main shaft B1 of above-mentioned rotor part is assemblied in housing A1 by supporting base B7, wheel hub B2 by bearing assemble on main shaft B1, described main shaft B1 is provided with motor stator B6, the rotor B5 of corresponding motor stator B6 is installed in wheel hub B2, described motor stator B6 connects power supply, by power supply to the given driving current of motor stator B6.The acting level of the Axial Flow Compressor in the utility model is multistage, the rotor part of each acting level is relatively independent, only need in the motor stator B6 in a driving current input Axial Flow Compressor, make the rotor B5 mutual cutting magnetic line together that the motor stator B6 in acting level at different levels is corresponding with motor stator B6, just can drive acting level at different levels action, avoid the intervention of outside large power supply, improve working efficiency.

Working principle: extraneous power supply provides a driving current to the motor stator B6 of every grade of acting level in Axial Flow Compressor, drive the mutual cutting magnetic line of rotor B5 being provided with corresponding motor stator B6 in the motor stator B6 of installation on every grade of every grade of main shaft B1 done work in level and wheel hub B2, drive the acting level action of every grade.When lasting input wind-force, the blade convection cell acting of Axial Flow Compressor on high speed rotating impeller is transformed into pressure energy.Simultaneously, by the wind power monitoring system of existing maturation, this wind power monitoring system is primarily of controller and wind-force monitor composition, this controller adopts the technology of existing routine to control, its inside is provided with the wind speed storing wind-force in advance, many grades of wind-force parameter values of hydrodynamic pressure and flow, after contrasting in the various wind-force parameter value input control devices monitored by wind-force monitor, regulate with controller, control straight-line feed power source (comprising the straight-line feed power source of stator part and the straight-line feed power source B41 of rotor part), send the yardstick (controlling stator blade blade angle regulating mechanism A3 on Axial Flow Compressor and each self-corresponding straight-line feed power source of movable vane blade angle regulating mechanism B4 ［ the straight-line feed power source B41 in the straight-line feed power source namely in stator blade leaf vane angle regulating mechanism and movable vane leaf vane angle regulating mechanism ］) of real-time control signal and straight-line feed power source (comprising the straight-line feed power source of stator part and the straight-line feed power source B41 of rotor part) feeding, the blade angle of stator blade A2 and moving vane B3 is adjusted by changing stator blade blade angle regulating mechanism A3 and movable vane blade angle regulating mechanism B4, to adapt to friction speed, blast, changes mechanical energy is pressure energy by Axial Flow Compressor by the gas of air quantity.Wherein, the straight-line feed power source controlled in stator blade blade angle regulating mechanism A3 drives the throw-out collar on housing A1 outer surface to do axial to-and-fro motion, and, by one group of gear set of rack-and-pinion on the blade rotor B31 of stator blade A2, the tooth bar of engaging gear is connected with throw-out collar, makes the blade rotor B31 of stator blade follow throw-out collar to-and-fro motion vertically together; The straight-line feed electrical source of power B41 controlled in movable vane blade angle regulating mechanism B4 drives the pushing cylinder in housing A1 to do axial to-and-fro motion, and, be sleeved on the blade rotor B31 of moving vane B3 by the gear B 410 of one group of rack-and-pinion of rack-and-pinion, the tooth bar B47 of engaging gear is connected with push-plate B46, drives the blade rotor B31 of movable vane to follow pushing cylinder to-and-fro motion vertically together.

embodiment 2

The utility model is a kind of Axial Flow Compressor, and described compressor has at least one-level acting level, and acting level is primarily of mutually corresponding stator part and rotor part composition.In the utility model, the acting level of Axial Flow Compressor is multistage, and the rotor part of each acting level is relatively independent.The main shaft of the rotor part of each acting level is independent mutually.

Above-mentioned stator part is primarily of housing, by the many piece stator blade compositions of bearing assemble on housing, the bearing that this housing assembles has the degrees of freedom of the rotation of restriction stator blade place blade rotor, the degrees of freedom of this rotation is less than 360 °, the blade rotor of these stator blades respectively with housing is set with, the stator blade blade angle regulating mechanism of axial feed is connected.Wherein, stator blade blade angle regulating mechanism is primarily of straight-line feed power source, throw-out collar, many secondary thrust switching mechanism compositions, (this straight-line feed power source can select screw jack to described straight-line feed power source, direct current generator, cylinder or oil cylinder etc.) output terminal be connected on throw-out collar, described throw-out collar is connected with how secondary thrust switching mechanism respectively, every secondary thrust switching mechanism connects the blade rotor of a stator blade, the wall thickness of housing is run through in one end of this stator blade rotating shaft, by the position-stopping plate location on the blade rotor of stator blade place, the position-stopping plate of stator blade place blade rotor is made to be positioned at enclosure interior, and position-stopping plate and inner walls are fitted.This blade rotor part running through the wall thickness of housing is connected with thrust switching mechanism, does axial to-and-fro motion with the throw-out collar on housing outer surface; Described thrust switching mechanism is rack-and-pinion, and this rack-and-pinion is positioned at the corresponding chute offered on housing outer surface; The gear set of described rack-and-pinion is on the blade rotor of stator blade, and the tooth bar of engaging gear is connected with throw-out collar.

Above-mentioned rotor part primarily of main shaft, the wheel hub be assemblied on main shaft, by the many piece moving vanes composition of bearing assemble on wheel hub, the bearing that this main shaft assembles has the degrees of freedom of the rotation of restriction moving vane place blade rotor, and the degrees of freedom of this rotation is less than 360 °.The blade rotor of these moving vanes respectively with main shaft is set with, the movable vane blade angle regulating mechanism of axial feed is connected, one end of the blade rotor of this moving vane is installed with in wheel hub, the degree of depth of installing is determined by position-stopping plate, and the position-stopping plate of moving vane place blade rotor and the corresponding surface of wheel hub are fitted mutually, wherein, movable vane blade angle regulating mechanism is primarily of straight-line feed power source, pushing cylinder (comprising pillar and substrate), bearing, push-plate and how secondary thrust switching mechanism composition, described straight-line feed power source is arranged on enclosure interior by bearing, (this straight-line feed power source can select screw jack, direct current generator, cylinder or oil cylinder etc.) output terminal of this straight-line feed power source is connected to substrate side, pushing cylinder place on the surface by push rod, away from straight-line feed power source substrate opposite side on the surface with pillar with line, face vertically connects, described pushing cylinder is fixedly connected with the inner ring of bearing by many pillars, described push-plate is fixedly connected on the outer ring of bearing, this push-plate is connected with how secondary thrust switching mechanism, every secondary thrust switching mechanism connects the blade rotor of a moving vane, described thrust switching mechanism is rack-and-pinion, and this rack-and-pinion is positioned at the guide chute of the composition of wheel hub and push-plate, the gear set of described rack-and-pinion is on the blade rotor of moving vane, and the tooth bar of engaging gear is connected with push-plate.

Further, the main shaft of the rotor part of above-mentioned Axial Flow Compressor is assemblied in housing by supporting base, wheel hub is fixedly assemblied on main shaft, described main shaft is provided with rotor, the motor stator of corresponding rotor is installed in described wheel hub, this motor stator is fixed on stator part by support, and described motor stator connects power supply, by power supply to the given driving current of motor stator.The acting level of the Axial Flow Compressor in the utility model is multistage, the rotor part of each acting level is relatively independent, only need in the motor stator in a driving current input Axial Flow Compressor, make the rotor mutual cutting magnetic line together that the motor stator in acting level at different levels is corresponding with motor stator, just can drive acting level at different levels action, avoid the intervention of outside large power supply, improve working efficiency.

Working principle: extraneous power supply provides a driving current to the motor stator of every grade of acting level in Axial Flow Compressor, drive on every grade of every grade of main shaft done work in level and rotor is installed, the motor stator of corresponding rotor is installed in described wheel hub, this motor stator is fixed on stator part by support, motor stator and the mutual cutting magnetic line of rotor, drive the acting level action of every grade.When lasting input wind-force, the blade convection cell acting of Axial Flow Compressor on high speed rotating impeller is transformed into pressure energy.Simultaneously, by the wind power monitoring system of existing maturation, this wind power monitoring system is primarily of controller and wind-force monitor composition, this controller adopts the technology of existing routine to control, its inside is provided with the wind speed storing wind-force in advance, many grades of wind-force parameter values of hydrodynamic pressure and flow, after contrasting in the various wind-force parameter value input control devices monitored by wind-force monitor, regulate with controller, control straight-line feed power source, send the yardstick (controlling stator blade blade angle regulating mechanism on Axial Flow Compressor and each self-corresponding straight-line feed power source of movable vane blade angle regulating mechanism ［ the straight-line feed power source in the straight-line feed power source namely in stator blade leaf vane angle regulating mechanism and movable vane leaf vane angle regulating mechanism ］) of real-time control signal and the feeding of straight-line feed power source, the blade angle of stator blade and moving vane is adjusted by change stator blade blade angle regulating mechanism and movable vane blade angle regulating mechanism, to adapt to friction speed, blast, changes mechanical energy is pressure energy by Axial Flow Compressor by the gas of air quantity.Wherein, the straight-line feed power source controlled in stator blade blade angle regulating mechanism drives the throw-out collar on housing outer surface to do axial to-and-fro motion, and, by one group of gear set of rack-and-pinion on the blade rotor of stator blade, the tooth bar of engaging gear is connected with throw-out collar, makes the blade rotor of stator blade follow throw-out collar to-and-fro motion vertically together; The straight-line feed electrical source of power controlled in movable vane blade angle regulating mechanism drives the pushing cylinder in housing to do axial to-and-fro motion, and, by the gear set of one group of rack-and-pinion of rack-and-pinion on the blade rotor of moving vane, the tooth bar of engaging gear is connected with push-plate, drives the blade rotor of movable vane to follow pushing cylinder to-and-fro motion vertically together.

embodiment 3

The present embodiment 3 is basically identical with the structure of embodiment 1, difference is: in the utility model, the acting level of compressor is multistage, the rotor part of each acting level shares a main shaft, this main shaft is connected with drive motor, and this acting level is primarily of mutually corresponding stator part and rotor part composition.

embodiment 4

The present embodiment 4 and embodiment 1 or 2 contrast, and the utility model is a kind of Axial Flow Compressor, and described compressor has at least one-level acting level, and acting level is primarily of mutually corresponding stator part and rotor part composition.In the utility model, the acting level of Axial Flow Compressor is multistage, and the rotor part of each acting level is relatively independent.The main shaft of the rotor part of each acting level is independent mutually.

Above-mentioned stator part is primarily of housing, by the many piece stator blade compositions of bearing assemble on housing, the bearing that this housing assembles has the degrees of freedom of the rotation of restriction stator blade place blade rotor, the degrees of freedom of this rotation is less than 360 °, the blade rotor of these stator blades respectively with housing is set with, the stator blade blade angle regulating mechanism of axial feed is connected.Wherein, stator blade blade angle regulating mechanism is primarily of straight-line feed power source, throw-out collar, how secondary thrust switching mechanism composition, the output terminal of described straight-line feed power source (this straight-line feed power source can select screw jack, direct current generator, cylinder or oil cylinder etc.) is connected on throw-out collar, described throw-out collar is connected with how secondary thrust switching mechanism respectively, and every secondary thrust switching mechanism connects the blade rotor of a stator blade; Described thrust switching mechanism is linkage mechanism, the wall thickness of housing is run through in one end of the blade rotor of this stator blade, by the position-stopping plate location on the blade rotor of stator blade place, make the position-stopping plate of stator blade place blade rotor be positioned at enclosure interior, and position-stopping plate and inner walls are fitted.This blade rotor part running through the wall thickness of housing is connected with thrust switching mechanism, does axial to-and-fro motion with the throw-out collar on housing outer surface; Described thrust switching mechanism is linkage mechanism, and this linkage mechanism is positioned at the corresponding chute offered on housing outer surface.A connecting rod of described linkage mechanism is connected on the blade rotor of stator blade, is connected with throw-out collar with another root connecting rod that this connecting rod is hinged.

Above-mentioned rotor part primarily of main shaft, the wheel hub be assemblied on main shaft, by the many piece moving vanes composition of bearing assemble on wheel hub, the bearing that this main shaft assembles has the degrees of freedom of the rotation of restriction moving vane place blade rotor, and the degrees of freedom of this rotation is less than 360 °.The blade rotor of these moving vanes respectively with main shaft is set with, the movable vane blade angle regulating mechanism of axial feed is connected, this moving vane, blade rotor one end install with wheel hub in, the degree of depth of installing is determined by position-stopping plate, and the position-stopping plate of moving vane place blade rotor and the corresponding surface of wheel hub are fitted mutually.Wherein, movable vane blade angle regulating mechanism is primarily of straight-line feed power source, pushing cylinder (comprising pillar and substrate), bearing, push-plate and how secondary thrust switching mechanism composition, described straight-line feed power source is arranged on enclosure interior by bearing, (this straight-line feed power source can select screw jack, direct current generator, cylinder or oil cylinder etc.) output terminal of this straight-line feed power source is connected to substrate side, pushing cylinder place on the surface by push rod, away from straight-line feed power source substrate opposite side on the surface with pillar with line, face vertically connects, described pushing cylinder is fixedly connected with the inner ring of bearing by many pillars, described push-plate is fixedly connected on the outer ring of bearing, this push-plate is connected with how secondary thrust switching mechanism, every secondary thrust switching mechanism connects the blade rotor of a moving vane, described thrust switching mechanism is linkage mechanism, and this linkage mechanism is positioned at the guide chute of the composition of wheel hub and push-plate, a connecting rod of this linkage mechanism is connected on the blade rotor of moving vane, is connected with push-plate with another root connecting rod that this connecting rod is hinged.

embodiment 5

The present embodiment 5 is basically identical with the structure of embodiment 1 or 2, and difference is: the utility model rotor parts are connected with drive motor, and the output shaft of this drive motor and the main shaft of rotor part are the same axis bar.

The technological scheme of each embodiment is only in order to illustrate the utility model above, is not intended to limit.Although be described in detail the utility model with reference to the technological scheme of foregoing embodiments, those of ordinary skill in the art has been to be understood that: it still can be modified to preceding solution, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from spirit and scope of the present utility model.

Claims (8)

1. an Axial Flow Compressor, described compressor has at least one-level acting level, this acting level is primarily of mutually corresponding stator part, rotor part composition, it is characterized in that: described stator part is primarily of housing (A1), by many piece stator blades (A2) composition of bearing assemble on housing (A1), and the blade rotor of these stator blades (A2) is gone up stator blade blade angle regulating mechanism (A3) that be set with, axial feed respectively and is connected with housing (A1); Described rotor part is primarily of main shaft (B1), the wheel hub (B2) be assemblied on main shaft (B1), by many piece moving vanes (B3) composition of bearing assemble on wheel hub (B2), the blade rotor (B31) of these moving vanes (B3) respectively that be set with, axial feed movable vane blade angle regulating mechanism (B4) upper with main shaft (B1) is connected.

2. Axial Flow Compressor according to claim 1, it is characterized in that: described stator blade blade angle regulating mechanism (A3) is primarily of straight-line feed power source, throw-out collar, how secondary thrust switching mechanism composition, the output terminal of described straight-line feed power source is connected on throw-out collar, described throw-out collar is connected with how secondary thrust switching mechanism respectively, and every secondary thrust switching mechanism connects the blade rotor of a stator blade (A2); Described thrust switching mechanism is rack-and-pinion or linkage mechanism; The gear set of described rack-and-pinion is on the blade rotor of stator blade (A2), and the tooth bar of engaging gear is connected with throw-out collar; A connecting rod of described linkage mechanism is connected on the blade rotor of stator blade, is connected with throw-out collar with another root connecting rod that this connecting rod is hinged.

3. Axial Flow Compressor according to claim 1, it is characterized in that: described movable vane blade angle regulating mechanism (B4) is primarily of straight-line feed power source (B41), pushing cylinder, bearing, push-plate (B46) and how secondary thrust switching mechanism composition, the output terminal of described straight-line feed power source (B41) is connected on pushing cylinder, described pushing cylinder is fixedly connected with the inner ring (B49) of bearing, described push-plate (B46) is fixedly connected on the outer ring (B45) of bearing, this push-plate (B46) is connected with how secondary thrust switching mechanism, every secondary thrust switching mechanism connects the blade rotor (B31) of a moving vane (B3), described thrust switching mechanism is rack-and-pinion or linkage mechanism, the gear (B410) of described rack-and-pinion is sleeved on the blade rotor (B31) of moving vane (B3), and the tooth bar (B47) of engaging gear (B410) is connected with push-plate (B46), a connecting rod of described linkage mechanism is connected on the blade rotor of moving vane, is connected with push-plate with another root connecting rod that this connecting rod is hinged.

4. Axial Flow Compressor according to claim 1, is characterized in that: the acting level of described compressor is multistage, and the rotor part of each acting level shares a main shaft, and described main shaft is connected with drive motor.

5. Axial Flow Compressor according to claim 1, is characterized in that: the acting level of described compressor is multistage, and the rotor part of each acting level is relatively independent.

6. Axial Flow Compressor according to claim 5, it is characterized in that: the main shaft (B1) of described rotor part is assemblied in housing (A1) by supporting base (B7), wheel hub (B2) by bearing assemble on main shaft (B1), described main shaft (B1) is provided with motor stator (B6), the rotor (B5) of corresponding motor stator (B6) is installed in wheel hub (B2), described motor stator (B6) connects power supply, by power supply to motor stator (B6) given driving current.

7. Axial Flow Compressor according to claim 5, it is characterized in that: the main shaft (B1) of described rotor part is assemblied in housing (A1) by supporting base (B7), wheel hub (B2) is fixedly assemblied on main shaft (B1), described main shaft (B1) is provided with rotor (B5), the motor stator (B6) of corresponding rotor (B5) is installed in described wheel hub (B2), this motor stator (B6) is fixed on stator part by support, described motor stator (B6) connects power supply, by power supply to motor stator (B6) given driving current.

8. Axial Flow Compressor according to claim 5, it is characterized in that: described rotor part is connected with drive motor, the output shaft of this drive motor and the main shaft of rotor part are the same axis bar.