CN206309652U - A kind of pair of duct propeller fan - Google Patents

Abstract

The utility model discloses a kind of pair of duct propeller fan, including frame, Blower Housing and motor, the Blower Housing is straight tube structure, and Blower Housing includes air inlet, air outlet and main duct, and a diameter of D of main duct, length are L, are also included：The shell body in frame is set up in, shell body is sheathed on the outside of Blower Housing, and the openend of shell body two is respectively external air inlet port and outgoing tuyere；It is by-pass air duct between shell body inwall and Blower Housing outer wall, a diameter of X of by-pass air duct, X=1.1D~1.5D, the length of by-pass air duct is Y, Y=0.5L~1.3L；It is not in contact between shell body inwall and Blower Housing outer wall, the axis of shell body overlaps or parallel with the axis of Blower Housing.For relatively conventional propeller fan, energy loss is reduced, improve the blast at gas outlet, the energy has been saved to a certain extent so that the performance of propeller fan gets a promotion.

Description

A kind of pair of duct propeller fan

Technical field

The utility model is related to a kind of blower fan, especially a kind of pair of duct propeller fan.

Background technology

Conventional axial flow ventilation blower is main by front and rear guard, front and rear stator, kuppe, impeller, motor, fiaring cone, Qian Houguan The several part compositions of road annex (such as current collector, diffusion barrel).In practical application scene, can carry out in structure as needed Simplify, such as electric fan, transformer cooling fan etc. are exactly some common reduced forms, propeller fan of typical axial flow blower The occasion that traffic requirement is higher and pressure requirements are relatively low is generally used for, air is moved by wheel rotation.

Propeller fan is to provide aerodynamical visual plant in industrial production, particularly in mine ventilation, metallurgy, stone The field extensive use such as oiling work, Aero-Space, navigation, the energy and track traffic.But, affected by many factors, ventilation blower Operational efficiency it is often not ideal enough, actual consumption electric energy is excessive, therefore, from energy saving, reduce noise pollution angle examine Consider, axial flow blower is optimized has highly important realistic meaning in today's society.

Fluent is commercial CFD code bag popular in the world at present, and the occupation rate of market in the U.S. is 60%, all It is that the industry relevant with fluid, heat transfer and chemical reaction etc. can be used.It has abundant physical model, advanced numerical value Method and powerful front and rear processing function, have at aspects such as Aero-Space, Automobile Design, petroleum gas and turbine designs And be widely applied.

Utility model content

In order to overcome the deficiencies in the prior art, the utility model can lift fan performance there is provided one kind, particularly in section Double duct propeller fans that about energy aspect is more protruded.

The utility model solves the technical scheme that its technical problem used：A kind of pair of duct propeller fan, including Frame and the Blower Housing and motor that are set up in frame, the Blower Housing are straight tube structure, and Blower Housing includes air intake Mouth, air outlet and the main duct between air inlet and air outlet, the motor shaft of motor are located in main duct, the motor shaft Place is provided with impeller, a diameter of D of main duct, and the length of main duct is L, is also included：

The shell body in frame is set up in, the shell body is the straight tube structure of both ends open, shell body is sheathed on Fan casing The outside of body, the openend of shell body two is respectively external air inlet port and outgoing tuyere, and external air inlet port is corresponding with the position of air inlet, Outgoing tuyere is corresponding with the position of air outlet；

It is by-pass air duct between the shell body inwall and Blower Housing outer wall, a diameter of X of by-pass air duct, X=1.1D~ 1.5D, the length of by-pass air duct is Y, Y=0.5L~1.3L；

It is not in contact between shell body inwall and Blower Housing outer wall, the axis of shell body and the axis phase of Blower Housing Mutually overlap or parallel.

The beneficial effects of the utility model are：By Fluent software discoverys, assume in the outside of conventional axial flow ventilation blower Shell body, forms by-pass air duct with matching outside main duct, as a result the undiscovered vortex at main duct, relatively conventional axle For flow blow, energy loss is reduced, improve the blast at gas outlet, the energy has been saved to a certain extent so that axle The performance of flow blow gets a promotion.

It is preferably arranged to, the diameter X=1.2D of by-pass air duct；The length Y of by-pass air duct is 1.1L, plane where outgoing tuyere with Plane where air outlet is same plane；The axis of shell body overlaps with the axis of Blower Housing.

Further preferably it is set to, openend where external air inlet port is in the horn shape towards external expansion, the court at shell body The angle of external expansion is set with shell body axis into 10~60 ° of angles.

Another kind is preferably arranged to, and the axis of the shell body is parallel to each other with the axis of Blower Housing, two axis Offset distance between line is 0.1D~0.2D.

Wherein, the diameter X=1.2D of by-pass air duct；The length Y of by-pass air duct is plane and air outlet where 1.1L, outgoing tuyere Place plane is same plane.

For fixing shell body, while avoiding producing by-pass air duct the interference of air-flow, Gu Neihandaochu is provided with interconnecting piece, The interconnecting piece is fixedly connected with Blower Housing inwall, and the axis hole that power supply arbor wears is offered on interconnecting piece；It is described Outer connector is fixed with the perisporium of shell body, the outer connector is fixedly connected with frame.

Brief description of the drawings

Fig. 1 is the sectional view of conventional axial flow propeller fan.

Fig. 2 is the sectional view of the utility model embodiment one.

Fig. 3 is the sectional view of the utility model embodiment two.

Fig. 4 is the sectional view of the utility model embodiment three.

Fig. 5 slips line chart for the speed of conventional axial flow propeller fan.

Fig. 6 slips line chart for the speed of the utility model embodiment one.

Fig. 7 slips line chart for the speed of the utility model embodiment two.

Fig. 8 slips line chart for the speed of the utility model embodiment three.

Specific embodiment

Fig. 1 is the sectional view of conventional axial flow propeller fan；Fig. 5 slips line chart for the speed of conventional axial flow propeller fan. The utility model is further described below in conjunction with the accompanying drawings：

Embodiment one：Double duct propeller fans long, as shown in Figure 2,6, the present embodiment includes frame (not shown) and frame Blower Housing 1 and motor 2 in frame, the Blower Housing 1 are straight tube structure, and Blower Housing 1 includes air inlet 11, goes out Air port 12 and the main duct between air inlet 11 and air outlet 12 13, the motor shaft of motor 2 are located in main duct 13, should Impeller 3 is installed at motor shaft, a diameter of D (D=120mm, similarly hereinafter) of main duct 13, the length of main duct 13 is L (L= 52mm, similarly hereinafter).In the present embodiment, a diameter of 52mm of rotor wheel rim, blade height is 34mm (perpendicular to the length of motor shaft axis Degree), a diameter of 52mm of tail bone, tail bone length is 105mm.Also being set up in frame has shell body 4, and the shell body 4 is both ends open Straight tube structure, shell body 4 is sheathed on the outside of Blower Housing 1, and 4 liang of openends of shell body are respectively external air inlet port 41 and outgoing Air port 42, external air inlet port 41 is corresponding with the position of air inlet 11, and outgoing tuyere 42 is corresponding with the position of air outlet 12.Shell It is by-pass air duct 43, a diameter of X of by-pass air duct 43, X=1.2D, the length of by-pass air duct 43 between the inwall of body 4 and the outer wall of Blower Housing 1 It is Y, Y=1.1L, plane where outgoing tuyere is same plane with plane where air outlet.Outside shell body inwall and Blower Housing It is not in contact between wall, axis and the axis of Blower Housing 1 of shell body 4 overlap, that is, be coaxially disposed.Wherein, shell The place openend of external air inlet port 41 is in the horn shape towards external expansion, the angle and the axis of shell body 4 towards external expansion at body 4 Set into 30 ° of angles.For fixing shell body 4, while avoiding producing by-pass air duct 43 interference of air-flow, therefore set at main duct 13 There is interconnecting piece (be shaft-like, and be not drawn into), the interconnecting piece is fixedly connected with the inwall of Blower Housing 1, and is opened on interconnecting piece It is provided with the axis hole that power supply arbor wears.Outer connector is fixed with the perisporium of shell body 4, the outer connector is fixed with frame and connected Connect.

By Fluent softwares it can be found that when air velocity is 10m/s at external admission mouthful 41, whirlpool is occurred in that in Fig. 1, There is energy loss；And in the present embodiment, there is not whirlpool.Herein, the generation in whirlpool will cause air in duct in a fixed point Stroke whirlpool, and the whirlpool does not do work for blower fan 2, belongs to the loss of energy, can influence the operating efficiency of the present embodiment. Therefore, by the design of by-pass air duct 43, the blast at each gas outlet can be improved, the energy has been saved to a certain extent so that axle The performance of flow blow gets a promotion.

Embodiment two：The short pair of duct propeller fan, as shown in Fig. 3,7, Y=is differed only in embodiment one 0.6L, the place plane of outgoing tuyere 42 of by-pass air duct 43 is perpendicular to the axis of Blower Housing 1 and positioned at the length of Blower Housing 1 Middle position.The diameter X=1.2D of by-pass air duct 43；The length Y of by-pass air duct 43 is 1.1L.

By Fluent softwares it can be found that when air velocity is 10m/s at external admission mouthfuls 41, in the present embodiment, not There is whirlpool.

Embodiment three：Eccentric double duct propeller fans, as shown in Fig. 4,8, shell are differed only in embodiment two The axis of body 4 is parallel to each other with the axis with Blower Housing 1, and the offset distance between two axis is 0.1D.By-pass air duct 43 Diameter X=1.2D；The length Y of by-pass air duct 43 is 1.1L.

By Fluent softwares it can be found that when air velocity is 10m/s at external admission mouthfuls 41, in the present embodiment, not There is whirlpool.

Particularly point out, in the present embodiment one to three, air velocity should be less than 20m/s at external admission mouthful 41；If exceeding This speed, then still can produce whirlpool at main duct 13, influence efficiency.

Meanwhile, conventional axial flow propeller fan, double duct propeller fans long, short pair of duct propeller fan and bias Double duct propeller fans are observed at air outlet 12 and outgoing tuyere 42 when inlet velocity is 10m/s by Fluent softwares Static pressure cloud atlas, it is possible to find there is symmetrical bar shaped low-pressure area in four kinds of centers of blower fan model, wherein conventional axial flow ventilation blower and Eccentric double duct propeller fans are obvious, and double duct propeller fans long and the short pair of low-pressure area of duct propeller fan What is presented is less obvious.There is higher-pressure region at main duct 13, and conventional axial flow ventilation blower and eccentric double duct propeller fans It is smaller, it is then more apparent at duct propeller fans long double and short pair of duct propeller fan.

When inlet velocity is 20m/s, the low-pressure area of duct propeller fans long double is minimum, conventional axial flow ventilation blower, short The low-pressure area size of double duct propeller fans and eccentric double duct propeller fans is close.And higher-pressure region at main duct 13, Eccentric double duct propeller fan DeGrains, other three kinds of models are more similar.

To sum up find, conventional axial flow ventilation blower, double duct propeller fans long, short pair of duct propeller fan and bias Four kinds of pressure of blower fan model of double duct propeller fans are gradually reduced with the increase of flow.But it is long double under same flow The stagnation pressure of duct propeller fan, short pair of duct propeller fan and eccentric double duct propeller fans will compare conventional axial flow The pressure of blower fan is big.When flow is less than 0.11kg/s, under flow identical operating mode, the pressure of double duct ventilation blowers long is most Greatly.The efficiency of each blower fan model is all first as the increase of flow first becomes big, after reaching maximum, with the increase of flow, Efficiency starts to be gradually reduced.In the operating mode of Q=0.11kg/s, its efficiency reaches maximum to four kinds of blower fan models.Therefore, same Under one flow rate working conditions, the efficiency of double ducted-fan blower is higher than conventional axial flow blower fan, wherein the efficiency highest of double ducted-fan blower long.

Claims (6)

1. a kind of pair of duct propeller fan, including frame and the Blower Housing and motor that are set up in frame, the Blower Housing It is straight tube structure, Blower Housing includes air inlet, air outlet and the main duct between air inlet and air outlet, motor Motor shaft be located in main duct, impeller is installed at the motor shaft, a diameter of D of main duct, the length of main duct is L, its It is characterized in also to include：

The shell body in frame is set up in, the shell body is the straight tube structure of both ends open, shell body is sheathed on Blower Housing Outside, the openend of shell body two is respectively external air inlet port and outgoing tuyere, and external air inlet port is corresponding with the position of air inlet, goes out Air port is corresponding with the position of air outlet；

It is by-pass air duct between the shell body inwall and Blower Housing outer wall, a diameter of X, the X=1.1D~1.5D of by-pass air duct, outward The length of duct is Y, Y=0.5L~1.3L；

It is not in contact between shell body inwall and Blower Housing outer wall, the axis of shell body and the axis phase mutual respect of Blower Housing Close or parallel.

2. according to claim 1 pair of duct propeller fan, it is characterized in that：The diameter X=1.2D of the by-pass air duct；Outward The length Y of duct is 1.1L, and outgoing tuyere place plane is same plane with plane where air outlet；The axis of shell body with The axis of Blower Housing overlaps.

3. according to claim 2 pair of duct propeller fan, it is characterized in that：Opened where external air inlet port at the shell body In the horn shape towards external expansion, this is set with shell body axis towards the angle of external expansion into 10~60 ° of angles at mouth end.

4. according to claim 1 pair of duct propeller fan, it is characterized in that：The axis of the shell body and Fan casing The axis of body is parallel to each other, and the offset distance between two axis is 0.1D~0.2D.

5. according to claim 4 pair of duct propeller fan, it is characterized in that：The diameter X=1.2D of the by-pass air duct；Outward The length Y of duct is 1.1L, and outgoing tuyere place plane is same plane with plane where air outlet.

6. double duct propeller fans according to any one of Claims 1 to 5, it is characterized in that：It is provided with the main duct Interconnecting piece, the interconnecting piece is fixedly connected with Blower Housing inwall, and offers what power supply arbor wore on interconnecting piece Axis hole；Outer connector is fixed with the perisporium of the shell body, the outer connector is fixedly connected with frame.