阅读说明：本技术 一种风机叶轮及风机 (Fan impeller and fan ) 是由 韩春玉 仇学莲 管凯 张磊 于 2020-07-30 设计创作，主要内容包括：本申请公开了一种风机叶轮,包括多个叶齿,叶齿具有叶峰部,叶峰部的外表面呈圆弧面,叶齿的顶端设置有凸出于叶峰部的宽筋,宽筋的顶端到叶轮中心的距离等于叶轮的半径,宽筋使得叶顶具有较大的可加工区域,能够允许/适应数控车床较大的“出错率”,并便于后续的再加工过程,从而能够精确加工得到“顶端到叶轮中心的距离等于叶轮的半径”的叶轮,弥补了从理论设计到产品成型过程中的“偏差”问题。本申请还提供了一种风机,包括机壳和设置于机壳内并与机壳相适配的叶轮,叶轮为如上所述的风机叶轮,不仅方便风机的加工制作,而且叶轮与机壳密封好,泄漏量低,风机噪音低,运行平稳,稳定性和耐磨性高,使用寿命长。(The application discloses fan wheel, including a plurality of leaf teeth, the leaf tooth has the lobe portion, the surface of lobe portion is the arc surface, the top of leaf tooth is provided with the bulge in the broad rib of lobe portion, the distance of the top of broad rib to the impeller center equals the radius of impeller, the broad rib makes the leaf top have great workable region, can allow/adapt to the great "error rate" of numerical control lathe, and the subsequent reprocessing process of being convenient for, thereby can the accurate processing obtain "the impeller that the distance of top to impeller center equals the radius of impeller", compensate from theoretical design to the "deviation" problem in the product forming process. The application still provides a fan, including the casing with set up in the casing and with the impeller of casing looks adaptation, the impeller be as above fan wheel, not only make things convenient for the processing preparation of fan, impeller and casing are sealed good moreover, let out leakage quantity low, the fan noise is low, operates steadily, stability and wearability height, long service life.)

1. The utility model provides a fan wheel, includes a plurality of teeth, the tooth has the peak of blade portion, the surface of peak of blade portion is the arc surface, its characterized in that, the top of tooth be provided with protrusion in the broad rib of peak of blade portion, the top of broad rib reaches the distance at impeller center equals the radius of impeller.

2. The fan impeller of claim 1, wherein the wide ribs are symmetrically arranged along the axis of the blade teeth, the top ends of the wide ribs are provided with flat arc surfaces, and the two sides of the flat arc surfaces are provided with chamfer arc surfaces tangent to the arc surfaces of the blade peak portions.

3. The fan impeller of claim 2, wherein the length of the flat arc surface is L, the radius of the impeller is Rc, and the ratio of the length of the flat arc surface L to the radius of the impeller Rc is L/Rc, wherein L/Rc is 0.01 or more and 0.06 or less.

4. The fan impeller of claim 3, wherein the L/Rc value is 0.06.

5. The fan wheel as in claim 3, wherein the radius R of the chamfer arc is equal to the radius Rc of the wheel.

6. The fan impeller of claim 1, wherein a valley portion fitted to the peak portion is formed between two adjacent teeth, an outer surface of the valley portion is an arc surface, and a radius of the arc surface of the peak portion is equal to a radius of the arc surface of the valley portion.

7. The fan wheel as claimed in claim 1, wherein the number of blade teeth is 3.

8. A fan, comprising a housing and an impeller disposed in the housing and matching with the housing, wherein the impeller is the fan impeller of any one of claims 1 to 7.

Technical Field

The application relates to roots's fan technical field especially relates to a fan wheel and fan.

Background

The roots blower is a positive displacement blower, which uses the relative movement of rotors to realize the transportation or compression of gas, and is widely used because of simple structure and convenient manufacture. The roots blower generally comprises a casing, an impeller in the casing and the like, wherein the impeller as a rotating part is a key part of the roots blower, and the precision of the impeller has a great influence on the performance of the blower.

Generally, the roots blower is provided with two impellers which are matched with each other, the impellers rotate relatively in a casing, as shown in fig. 2, each impeller adopts an arc line, an involute line or an envelope line of an epicycloid, so that the teeth of each impeller are completely the same, and meanwhile, the two impellers are also completely the same, so that the processing difficulty is greatly reduced.

Although each blade tooth of the impeller is completely the same in theoretical design, in the impeller machining process, when an outer circle of the impeller is turned finally, the numerical control equipment precision is not enough and the material hardness is not uniform, so that the residual width of the blade peak top in the length direction of the impeller is different, and if the deviation is large, the blade peak top can be caused in a place which can not be turned in the length direction of the whole impeller, so that the fan leakage is increased, and the flow exceeds the design standard tolerance; meanwhile, the pulsation of the air flow is increased, and the noise is higher.

Disclosure of Invention

The application provides a fan wheel and fan to solve at least one among the above-mentioned technical problem.

The technical scheme adopted by the application is as follows:

the utility model provides a fan wheel, includes a plurality of teeth, the tooth has the peak of blade portion, the surface of peak of blade portion is the arc surface, the top of tooth of blade is provided with protrusion in the broad rib of peak of blade portion, the top of broad rib is arrived the distance at impeller center equals the radius of impeller.

The broad rib is along the axis symmetry setting of lobe tooth, the top of broad rib is provided with flat cambered surface, the both sides of flat cambered surface are provided with the chamfer cambered surface, the chamfer cambered surface with the arc surface of peak of the leaf portion is tangent.

The length of the flat arc surface is L, the radius of the impeller is Rc, the ratio of the length of the flat arc surface L to the radius of the impeller is L/Rc, wherein L/Rc is more than or equal to 0.01 and less than or equal to 0.06.

The value of L/Rc is 0.06.

The radius R of the chamfer cambered surface is equal to the radius Rc of the impeller.

A valley part matched with the peak part is formed between two adjacent blade teeth, the outer surface of the valley part is an arc surface, and the radius of the arc surface of the peak part is equal to that of the arc surface of the valley part.

The number of the blade teeth is 3.

A fan comprises a casing and an impeller arranged in the casing and matched with the casing, wherein the impeller is any one of the fan impellers.

Due to the adoption of the technical scheme, the beneficial effects obtained by the application are as follows:

1. in this application, the top of lobe tooth is provided with the broad rib of protrusion in the peak of the leaf portion, and the distance of the top of broad rib to the impeller center equals the radius of impeller. The wide ribs protrude out of the arc surface of the blade peak part at the top end of the blade tooth, so that the blade top has a larger machinable area, the larger machinable area can allow/adapt to a larger error rate of a numerical control lathe, and the subsequent reprocessing process is facilitated, so that the impeller with the distance from the top end to the center of the impeller equal to the radius of the impeller can be accurately processed, and the problem of deviation in the process from theoretical design to product molding is solved.

2. The existence of broad band makes impeller length direction top blade peak portion height flat mutually, the width unanimous, and all blade profiles can be processed at length direction is whole for impeller and casing inner chamber fit clearance are unanimous at whole circumference length direction completely, and is sealed good, leaks the leakage and reduces, and reduced the air current pulsation, the fan noise obtains certain improvement. In addition, the existence of the wide ribs also increases the structural strength of the blade crest part of the impeller, and improves the stability and the wear resistance of the impeller.

3. The wide ribs are symmetrically arranged along the axis of the blade teeth, so that the blade teeth additionally provided with the wide ribs are uniform and symmetrical, the uniform stress of the impeller in the rotating process is ensured, and the deflection phenomenon is avoided. The top of wide muscle sets up to flat cambered surface, and the processing of flat cambered surface sets up and more makes things convenient for numerical control equipment to control, can reduce the required precision to numerical control equipment, avoids the situation that the turning of arc surface can't reach or remain the width inconsistent. The chamfer cambered surfaces arranged on the two sides of the flat cambered surface can enable backflow airflow to form reversion, reduce airflow pulsation sound and further reduce noise of the fan.

4. The length L of the broad rib is 0.06 with impeller diameter Rc value in this application, not only makes things convenient for fan wheel's processing preparation, improves the machining precision of impeller, furthest's improvement fan wheel's performance moreover. Preferably, the radius R of the chamfer cambered surface is equal to the radius Rc of the impeller, so that the chamfer cambered surface can be conveniently machined, and the manufacturing efficiency of the impeller is improved. And the impeller is integrally coordinated and has more aesthetic property.

5. The application also provides a fan, including the casing with set up in the casing and with the impeller of casing looks adaptation, the impeller be as above fan wheel, not only make things convenient for the processing preparation of fan, fan wheel and casing are sealed good moreover, let out leakage quantity low, the fan noise is low, operates steadily, stability and wearability are high, long service life.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic view of a fan provided in the present application.

Fig. 2 is a schematic view of a prior art impeller blade tooth.

Fig. 3 is a schematic view of an impeller blade tooth provided by the present application.

Fig. 4 is a dimensional schematic view of the impeller blade teeth of fig. 3.

Wherein the content of the first and second substances,

1 blade tooth, 11 blade peak parts, 12 blade valley parts, 2 wide ribs, 21 flat arc surfaces, 22 chamfer arc surfaces, 3 impellers and 4 casings.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like refer to orientations or positional relationships illustrated in the drawings, which are used for convenience in describing the present application and to simplify the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered limiting of the present application.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1 and 3, a fan impeller includes a plurality of blade teeth 1, the blade teeth 1 have a blade crest 11, an outer surface of the blade crest 11 is a circular arc surface, a broad rib 2 protruding from the blade crest 11 is disposed at a top end of the blade teeth 1, and a distance from the top end of the broad rib 2 to a center of the impeller is equal to a radius of the impeller.

In the machining process of the impeller 3, the shape of the crest part 11 and the valley part 12 of the impeller 3 is firstly rough machined, and then the outer surface of the crest part 11 or the valley part 12 is turned into a standard arc surface by finish machining of a numerical control lathe. However, because the accuracy of numerical control equipment is not sufficient or the hardness of a blank material is not uniform, the situation that the arc surface part of the crest of the impeller in the length direction of the impeller cannot be turned or the residual width is inconsistent often occurs. If the impeller at the moment is directly assembled for use, the local height and the width of the blade top of the impeller are uneven, so that airflow pulsation is increased, and noise is higher; if the impeller is further turned, the radius of the impeller peak part 11 is reduced, the leakage of the fan is increased, the flow exceeds the design standard tolerance, and the use performance of the impeller is affected by the conditions.

Therefore, in the process of processing the blade top of the impeller, firstly rough processing is carried out, a wide rib 2 protruding out of the arc surface of the outer surface of the blade peak part 11 is arranged at the top end of each blade tooth 1, then a numerical control lathe is used for turning the wide rib 2, and after processing, the distance from the top end of the wide rib 2 to the center of the impeller is equal to the radius of the impeller 3. The wide ribs 2 protrude out of the outer surface arc surface of the blade peak part 11 at the top end of the blade tooth 1, so that the blade top has a larger processing area, the larger processing area can allow/adapt to a larger error rate of a numerical control lathe, and the subsequent processing process is facilitated, so that the impeller 3 with the distance from the top end to the center of the impeller equal to the radius of the impeller can be accurately processed, and the problem of deviation in the process from theoretical design to product forming is solved.

Through many times of tests, when the excircle was turned to last impeller outward appearance cambered surface, the existence of broad rib 2 made 11 height looks flat, the width unanimity of impeller length direction top blade peak portion, and all the blade types can be processed at length direction is whole, make impeller 3 and 4 inner chamber fit clearance of casing unanimous at whole circumference length direction complete like this, sealed good, let out leakage quantity and reduce to reduce the air current pulsation, the fan noise obtains certain improvement. In addition, the existence of the wide ribs 2 also increases the structural strength of the impeller crest part 11, and improves the stability and the wear resistance of the impeller.

Further, as shown in fig. 3 and 4, the broad rib 2 is symmetrically arranged along the axis of the blade tooth 1, a flat arc surface 21 is arranged at the top end of the broad rib 2, chamfer arc surfaces 22 are arranged on two sides of the flat arc surface 21, and the chamfer arc surfaces 22 are tangent to the arc surface of the peak part 11.

The wide ribs 2 are symmetrically arranged along the axis of the blade teeth 1, so that the blade teeth 1 which are additionally provided with the wide ribs are uniformly and symmetrically arranged, the uniform stress of the impeller 3 in the rotating process can be ensured, and the deflection phenomenon is avoided. The top of wide muscle 2 sets up to flat cambered surface 21, and the processing of flat cambered surface 21 sets up and more makes things convenient for numerical control equipment to control, can reduce the required precision to numerical control equipment, avoids the situation that the turning of arc surface can not reach or remain the width inconsistent. The chamfer cambered surfaces 22 arranged on the two sides of the flat cambered surface 21 can enable backflow airflow to form reverse rotation, reduce airflow pulsation sound and further reduce noise of the fan.

Furthermore, as shown in fig. 3 and 4, the length of the flat arc surface 21 is L, the radius of the impeller is Rc, and the ratio of the length L of the flat arc surface 21 to the radius Rc of the impeller is L/Rc, wherein L/Rc is greater than or equal to 0.01 and less than or equal to 0.06.

Because the wide ribs 2 protrude out of the blade peak parts 11, the wide ribs 2 not only can facilitate the processing of the impeller, but also the size of the wide ribs 2 has influence on the working performance of the impeller. The distance from the top end of the wide rib 2 to the center of the impeller is equal to the radius of the impeller, and the size of the wide rib is influenced by the size limit of the casing 4 and the distance between adjacent impellers. The length of the web 2 is therefore decisive for the operating performance of the impeller. Through using fans of different specifications and models, and through a plurality of experiments, the length L of the wide rib 2 and the diameter Rc of the impeller have the following corresponding relation.

It can be seen that, when the impeller size (Rc) is determined, the larger the length L of the flat arc surface 21 of the wide rib 2 is, the larger the fan flow rate is, the lower the leakage air volume is, and the fan noise is improved to some extent. Preferably, in order to facilitate the processing and manufacturing of the fan impeller, improve the processing precision of the impeller and improve the use performance of the fan impeller, the top end of the impeller tooth 1 is provided with the wide rib 2, and the length L and the diameter Rc of the impeller are 0.06.

Preferably, as shown in fig. 3 and 4, the radius R of the chamfer arc surface 22 is equal to the radius Rc of the impeller. When the broad rib 2 is processed, the chamfer cambered surfaces 22 on the two sides of the flat cambered surface 21 are processed, the radius R of the chamfer cambered surfaces 22 is equal to the radius Rc of the impeller, the operation can be carried out without changing the setting or adjusting the parameter size of equipment, the chamfer arcs can be conveniently processed, and therefore the manufacturing efficiency of the impeller is improved. In addition, the radius R of the chamfer cambered surface 22 is equal to the radius Rc of the impeller, so that the impeller is integrally coordinated and has better aesthetic property.

In a preferred embodiment, as shown in fig. 3 and 4, a valley portion 12 adapted to the peak portion 11 is formed between two adjacent teeth 1, an outer surface of the valley portion 12 is a circular arc surface, and a radius of the circular arc surface of the peak portion 11 is equal to a radius of the circular arc surface of the valley portion 12.

The impeller is also provided with a valley part 12 matched with the peak part 11 so as to meet the rotation of the blade teeth 1 and prevent the blade teeth 1 from rubbing or colliding. The outer surfaces of the valley parts 12 and the peak parts 11 are similar and are all set to be arc surfaces, and the radiuses of the two arc surfaces are equal, so that the working requirement of the impeller is met, the turning angle of a numerical control device is changed in the machining process, the device parameters do not need to be changed or adjusted, the impeller can be conveniently machined, and the machining and manufacturing efficiency of the impeller is improved.

Preferably, the number of said teeth 1 is 3. Because three leaf impellers are littleer than two leaf impellers's a lot of advantages such as the pulsation of giving vent to anger, the noise is littleer, operate more steadily, consequently set up the quantity of the lobe tooth 1 of impeller into three, three leaf impeller fan promptly to satisfy the demand that the noise is little, operate steadily.

The application still provides a fan, as shown in fig. 1, including casing 4 with set up in the casing 4 and with the impeller of 4 looks adaptations of casing, the impeller be as above fan wheel, not only make things convenient for the processing preparation of fan, impeller and casing 4 are sealed good moreover, and the leakage is low, and the fan noise is low, operates steadily, and stability and wearability are high, long service life.

Where not mentioned in this application, can be accomplished using or referencing existing technology.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.