CN110081025A - MVR centrifugal vapor compressor air inlet anti-asthma vibration tube - Google Patents

Abstract

This patent is related to MVR centrifugal vapor compressor technical field, disclose a kind of MVR centrifugal vapor compressor air inlet anti-asthma vibration tube, including bleed cylinder, first air entraining pipe, first flange and second flange, first air entraining pipe is connected to bleed cylinder, first air entraining pipe connects exhaust outlet of compressor steam, it further include inner cylinder, deflector and spiral board, inner cylinder is located inside bleed cylinder, the chamber formed between inner cylinder and bleed cylinder is closed by first flange, the other end is connect with spiral board, deflector is fixed between inner cylinder and bleed cylinder, and deflector is between the first air entraining pipe and spiral board, deflector is equipped with several deflector holes, spiral board is equipped with several whirl holes for capableing of swirling eddy.This programme is in the case where introducing exhaust outlet of compressor steam, utilize the inner cylinder, deflector and spiral board of special designing, the vapor stream of introducing is rotated, to change the deflection into compressor airflow, to achieve the purpose that prevent, eliminate compressor surge.

Description

MVR centrifugal vapor compressor air inlet anti-asthma vibration tube

Technical field

The present invention relates to MVR centrifugal vapor compressor technical field, specifically a kind of MVR centrifugal vapor compressor into Gas anti-asthma vibration tube.

Background technique

The surge of MVR centrifugal vapor compressor is its intrinsic phenomenon.Its consequence is extremely serious when compressor generation surge, It can be such that compressor performance deteriorates, and pressure, efficiency are substantially reduced, and compressor generates noise, sudden and violent sound, and vibration acutely, turns when serious Son is possible to collide with fixation member, damages machine.The mechanism of surge be compressor in operation, actual flow is less than Surging flow.

Therefore, in order to avoid or reduce compressor start or running surge, in compressor arrangement design, usually Compressor outlet gas is directly introduced into air inlet, so that compressor inlet flow increases to greater than Surging flow；Or use can The guide vane of rotation makes air-flow generation prewhirl, and changes attacking for the direction reduction inlet edge of impeller blade air-flow for entering impeller air-flow Angle, to prevent or eliminate the surge of compressor.

Compressor outlet gas is directly introduced into air inlet, increases flow for compressor inlet, structure is simple but will increase The disorder degree of compressor inlet air-flow, reduces the efficiency of compressor, increases the power consumption of compressor, not energy-efficient.This anti-Zhichuan The structure of vibration is because of uses a large amount of in industry at low cost.Using this mode structure of rotatable guide vane (adjustable guide vane) Complexity, manufacturing cost are high.

Summary of the invention

The invention is intended to provide a kind of MVR centrifugal vapor compressor air inlet anti-asthma vibration tube, to solve above-mentioned background technique The problem of middle proposition.

In order to achieve the above object, base case of the invention is as follows:

MVR centrifugal vapor compressor air inlet anti-asthma vibration tube, including bleed cylinder, the first air entraining pipe, first flange and second Flange, the first flange and second flange are located at the both ends of bleed cylinder, and first air entraining pipe is connected to bleed cylinder, institute It states the first air entraining pipe and connects exhaust outlet of compressor steam, further include inner cylinder, deflector and spiral board, the inner cylinder is located in bleed cylinder Portion is simultaneously coaxial with bleed cylinder, and the chamber formed between the inner cylinder and bleed cylinder is closed by first flange, the other end and rotation Flowing plate connection, the deflector is fixed between inner cylinder and bleed cylinder, and the deflector is located at the first air entraining pipe and spiral board Between, the deflector is equipped with several deflector holes, and the spiral board is equipped with several whirl holes for capableing of swirling eddy, passes through The flow rotation direction of the whirl hole and the wheel rotation direction of MVR centrifugal vapor compressor are identical.

Base case the utility model has the advantages that (1) this programme is set in the case where introducing exhaust outlet of compressor steam using special Inner cylinder, deflector and the spiral board of meter, rotate the vapor stream of introducing, to change the direction into compressor airflow Angle, to achieve the purpose that prevent, eliminate compressor surge.

(2) for this patent compared with the existing mode that compressor outlet gas is directly introduced to air inlet, this programme can Reach better anti-surge effect, the increasing to disorder degree caused by compressor inlet air-flow in the case where identical inlet air flow Add, the reduction of compressor efficiency, the increase of compressor power consumption the problems such as all improve significantly.

(3) this patent with it is existing using rotatable guide vane make air-flow generation prewhirl by the way of compared with, this programme The guide vane using rotation is not needed, reduces manufacturing cost, and can be by changing eddy flow hole number, shape on spiral board Shape etc. meets the anti-surge demand of the compressor of different model, simplifies the structure of compressor surge-proof mechanism, reduces compression The seal request of machine system.

Further, be also communicated with the second air entraining pipe on the bleed cylinder, second air entraining pipe connect it is outer for steam, described Two air entraining pipes are located at the right opposite of the first air entraining pipe.The flow of steam can be improved, to improve the speed of air-flow outside for steam Degree, in compressor start or shutdown, the flow by adjusting the second air entraining pipe adjusts flow rotation speed, thus change into The deflection for entering impeller air-flow prevents compressor from surge occurs.

Further, further include swirl cylinder, the swirl cylinder is divergent-cone wall, one end that the swirl cylinder is relatively large in diameter with Bleed cylinder is fixedly connected, and the swirl cylinder other end is fixedly connected with second flange.Make the rotation for entering swirl cylinder by spiral board Air-flow drives the flow rotation entered by inner cylinder, swirling eddy is provided for compression impellor, to reach better anti-surge effect.

Further, the whirl hole on the spiral board is inclined through-hole.By the air-flow of deflector into crossing on spiral board Inclined through-hole prewhirls to air-flow to realize for the tilt angle rotational flow of through-hole.

Further, the whirl hole on the spiral board is nozzle vane type channel.Using nozzle vane type channel to air-flow It prewhirls, compared with inclined through-hole, nozzle vane type channel is more preferable to the pre- swirl effect of air-flow.

Further, the whirl hole is evenly distributed on spiral board.Being uniformly distributed for whirl hole can be realized better gas Flow pre- swirl effect.

Further, the end of the second flange is equipped with several axial annular recess.In operation, second flange and compressor Connection, axial annular recess are capable of forming sealed passage, increase the sealing effect after this programme is connect with compressor.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the embodiment of the present invention one；

Fig. 2 is the cross-sectional view of the embodiment of the present invention one；

Fig. 3 is the front view of deflector in the embodiment of the present invention one；

Fig. 4 is the cross-sectional view of deflector in the embodiment of the present invention one；

Fig. 5 is the front view of spiral board in the embodiment of the present invention one；

Fig. 6 is the side view partial cutaway view of spiral board in the embodiment of the present invention one；

Fig. 7 is the front view of spiral board in the embodiment of the present invention two；

Fig. 8 is the side view partial cutaway view of spiral board in the embodiment of the present invention two.

Specific embodiment

It is further described below by specific embodiment:

Appended drawing reference in Figure of description include: bleed cylinder 1, the first air entraining pipe 2, the second air entraining pipe 3, first flange 4, Second flange 5, swirl cylinder 6, inner cylinder 7, deflector 8, spiral board 9, deflector hole 10, whirl hole 11, axial annular recess 12.

Embodiment one

Substantially as shown in attached drawing 1, Fig. 2: MVR centrifugal vapor compressor air inlet anti-asthma vibration tube, including bleed cylinder 1, first Air entraining pipe 2, the second air entraining pipe 3, first flange 4, second flange 5, swirl cylinder 6, inner cylinder 7, deflector 8 and spiral board 9, first draws Tracheae 2, the second air entraining pipe 3 are connected to bleed cylinder 1, and the first air entraining pipe 2 connects exhaust outlet of compressor steam, and the second air entraining pipe 3 connects It is outer for steam, the second air entraining pipe 3 is located at the right opposite of the first air entraining pipe 2.Inner cylinder 7 is located at the inside of bleed cylinder 1 and same with bleed cylinder 1 Axis, the chamber formed between inner cylinder 7 and bleed cylinder 1 are closed by first flange 4, and the other end is connect with spiral board 9, inner cylinder 7 For main inlet channel.Deflector 8 is fixed between inner cylinder 7 and bleed cylinder 1, and deflector 8 is located at the first air entraining pipe 2 and spiral board Between 9 and parallel with spiral board 9, in conjunction with shown in Fig. 3, Fig. 4, deflector 8 is equipped with several equally distributed deflector holes 10, in conjunction with Shown in Fig. 5, Fig. 6, spiral board 9 is equipped with several equally distributed whirl holes 11 for capableing of swirling eddy, and whirl hole 11 is inclination Through-hole, the flow rotation direction by the whirl hole 11 is identical as the centrifugal vapor compressor wheel rotation direction MVR.Rotation Flow cartridge 6 is divergent-cone wall, and one end that swirl cylinder 6 is relatively large in diameter is fixedly connected with bleed cylinder 1,6 other end of swirl cylinder and second Flange 5 is fixedly connected, and the end of second flange 5 is equipped with several axial annular recess 12.

Specific implementation process is as follows: when compressor start, first appropriateness opens the first air entraining pipe 2 and the second air entraining pipe 3 simultaneously Steam, by some vapor of exhaust outlet of compressor and it is outer for steam introduce air inlet anti-surge pipe, steam pass through air inlet anti-surge After equally distributed deflector hole 10 depressurizes on deflector 8 in pipe, the spiral board 9 for being evenly distributed with inclined through-hole is flowed through, is changed Flow direction forms swirling eddy.Then at the uniform velocity start compressor, when surge occurs for compressor, individually adjust the first bleed The steam flow of pipe 2 or the second air entraining pipe 3 or the steam flow for adjusting two air entraining pipes simultaneously, to change prewhirling into impeller The deflection of air-flow eliminates the surge of compressor in start-up course.

After machine start completion to be compressed, first close outer for steam, in the case where surge does not occur for guarantee, adjusting or closing Quoted from the steam of exhaust outlet of compressor.When there is surge in compressor operational process, the steam quoted from exhaust outlet of compressor is adjusted Flow changes the airflow direction angle of prewhirling for entering impeller, eliminates surge.When shutdown, first unlatching is outer for steam, and compressor gradually subtracts Speed operating is until shut down.It individually adjusts the steam flow of the first air entraining pipe 2 or the second air entraining pipe 3 or adjusts two air entraining pipes simultaneously Steam flow, eliminate stopping process in compressor surge.

Embodiment two

The present embodiment is distinguished compared with embodiment one and is only that: the whirl hole 11 on the spiral board 9 in conjunction with shown in Fig. 7, Fig. 8 is Nozzle vane type channel.

What has been described above is only an embodiment of the present invention, and the common sense such as well known specific structure and/or characteristic are herein in scheme It does not describe excessively.It should be pointed out that for those skilled in the art, without departing from the structure of the invention, also Several modifications and improvements can be made, these also should be considered as protection scope of the present invention, these all will not influence of the invention real The effect and patent practicability applied.The scope of protection required by this application should be based on the content of the claims, specification In the records such as specific embodiment can be used for explaining the content of claim.

Claims (7)

1.MVR centrifugal vapor compressor air inlet anti-asthma vibration tube, including bleed cylinder, the first air entraining pipe, first flange and the second method Orchid, the first flange and second flange are located at the both ends of bleed cylinder, and first air entraining pipe is connected to bleed cylinder, described First air entraining pipe connects exhaust outlet of compressor steam, it is characterised in that: further includes inner cylinder, deflector and spiral board, the inner cylinder position Inside bleed cylinder and coaxial with bleed cylinder, the chamber formed between the inner cylinder and bleed cylinder is closed by first flange, The other end is connect with spiral board, and the deflector is fixed between inner cylinder and bleed cylinder, and the deflector is located at the first bleed Between pipe and spiral board, the deflector is equipped with several deflector holes, and the spiral board is equipped with several swirling eddies of capableing of Whirl hole, the flow rotation direction by the whirl hole are identical as the wheel rotation direction of MVR centrifugal vapor compressor.

2. MVR centrifugal vapor compressor air inlet anti-asthma vibration tube according to claim 1, it is characterised in that: the bleed Also it is communicated with the second air entraining pipe on cylinder, second air entraining pipe connects outer for steam, and second air entraining pipe is located at the first air entraining pipe Right opposite.

3. MVR centrifugal vapor compressor air inlet anti-asthma vibration tube according to claim 2, it is characterised in that: further include rotation Flow cartridge, the swirl cylinder are divergent-cone wall, and one end that the swirl cylinder is relatively large in diameter is fixedly connected with bleed cylinder, the eddy flow The cylinder other end is fixedly connected with second flange.

4. MVR centrifugal vapor compressor air inlet anti-asthma vibration tube according to claim 3, it is characterised in that: the eddy flow Whirl hole on plate is inclined through-hole.

5. MVR centrifugal vapor compressor air inlet anti-asthma vibration tube according to claim 3, it is characterised in that: the eddy flow Whirl hole on plate is nozzle vane type channel.

6. MVR centrifugal vapor compressor air inlet anti-asthma vibration tube according to claim 4 or 5, it is characterised in that: the rotation Discharge orifice is evenly distributed on spiral board.

7. MVR centrifugal vapor compressor air inlet anti-asthma vibration tube according to claim 6, it is characterised in that: described second The end of flange is equipped with several axial annular recess.