CN212563784U - Cluster fan blade structure with reinforcing frame and axial flow fan - Google Patents

Abstract

The utility model discloses a cluster fan blade structure with a reinforcing frame, a fixing framework and a noise reduction structure, wherein the fixing framework is provided with at least one group of cluster fan blades, each cluster fan blade comprises a first fan blade and a second fan blade, the first fan blade and the second fan blade are distributed at intervals, the first fan blade is arranged on the fixing framework, the second fan blade is connected and arranged on the first fan blade through a connecting piece, the connecting piece penetrates through the first fan blade, and the connecting piece is connected end to form the reinforcing frame; the noise reduction structure is arranged on the edge of one end, connected with the fixed framework, of the first fan blade, and/or the edge of one end, connected with the reinforcing frame, of the second fan blade. The cluster fan blade structure has the advantages of high stability of the fan blades, large air supply amount, low noise, simple overall design and low process difficulty, and can be beneficial to improving the production efficiency and reducing the production cost. The utility model also discloses an axial fan of having above-mentioned cluster fan blade structure.

Description

Cluster fan blade structure with reinforcing frame and axial flow fan

Technical Field

The utility model relates to a heat dissipation technical field, concretely relates to cluster fan blade structure, axial fan with strengthen frame.

Background

The fan is widely applied to electronic components such as computers, civil electric appliances such as hair dryers and the like, and industries and fields such as chemical engineering, machinery and the like. The main performances of the fan include air supply performance and acoustic performance, wherein the air supply performance is taken as the most basic performance of the fan, and the larger the air supply amount is, the better the heat dissipation effect which can be achieved by the fan is. However, as the living standard of people is improved, the requirement of the acoustic performance of the fan is increased.

In the existing fans, common single-layer smooth fan blades are mostly adopted, the air output is very limited in a limited space, and the higher air output is difficult to achieve. And the fan blade of fan is easy to shake when rotating around fixed framework, because the air current has apparent interact with the geometric surface or limit of fan blade, forms unstable boundary layer, especially the fan blade is with the junction of wheel hub, and the air current flow field of this junction is very unstable, forms unstable boundary layer easily. The unstable boundary layer strengthens the development of small-scale turbulence, and the energy of the flow field is dissipated and converted into noise energy through a small-scale turbulence mechanism, so that noise is generated.

In order to solve the problems, the conventional design generally adopts the mode of increasing the number of the fan blades to ensure the stability of the air supply of the fan, so that the noise generated due to unstable airflow between the fan blades is reduced, but the length and the area of the fan blades are more limited, and the air supply amount is reduced. The problem of noise reduction under the condition of difficult assurance air output simultaneously of current conventional fan blade design has not satisfied people to the requirement of fan high performance so designed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cluster fan blade structure with strengthen frame, the stability that has the fan blade is high, the big while advantage that the noise is little of air supply volume, and overall design is simple moreover, and the technology degree of difficulty is little, can be favorable to improving production efficiency, reduction in production cost.

In order to solve the above problem, the utility model discloses realize according to following technical scheme:

the utility model provides a pair of cluster fan blade structure with strengthen frame, include:

the fan comprises a fixed framework, at least one group of cluster fan blades are arranged on the fixed framework, the cluster fan blades comprise first fan blades and second fan blades, the first fan blades and the second fan blades are distributed at intervals, the first fan blades are arranged on the fixed framework, the second fan blades are connected and arranged on the first fan blades through connecting pieces, the connecting pieces penetrate through the first fan blades, and the connecting pieces are connected end to form a reinforcing frame;

and the noise reduction structure is arranged on the edge of one end, connected with the fixed framework, of the first fan blade, and/or the edge of one end, connected with the reinforcing frame, of the second fan blade.

Furthermore, the junction between the front edge and the outer edge of the first fan blade and/or the junction between the rear edge and the outer edge of the first fan blade is provided with the noise reduction structure.

Furthermore, the noise reduction structure is arranged at the junction of the front edge and the outer edge of the second fan blade and/or the junction of the rear edge and the outer edge of the second fan blade.

Further, the noise reduction structure is arranged on the upper edge and the lower edge of the fixed framework and/or the upper edge and the lower edge of the reinforcing frame.

Further, the noise reduction structure is any one or combination of any multiple structures of a sawtooth structure, a wave-shaped structure, a V-shaped structure, a W-shaped structure and a semicircular structure.

Further, the inner installation angle of the first fan blade is set to be 15-75 degrees, the outer installation angle is set to be 10-70 degrees, and/or the inner installation angle of the second fan blade is set to be 15-75 degrees, and the outer installation angle is set to be 10-70 degrees.

Furthermore, the structure of the fixed framework is in a cylindrical or circular truncated cone shape, and the structure of the reinforcing frame is in a hollow cylindrical or hollow circular truncated cone shape.

Further, the cluster fan blade has a plurality of fan blade real-time values, and each of the fan blades in the cluster fan blade may not be overlapped or may be overlapped within a specified angle right in front of the blowing direction of the cluster fan blade, wherein the fan blade real-time value calculation formula is as follows:

(i and n are positive integers, i is more than or equal to 1, and n is more than i), wherein S is_DThe blade real number value L of the clustered blades under the diameter D_iIs the chord length of the blade i,

is the sum of the chord lengths of the blades of each blade at the same diameter D, and n is the number of blades present at the same diameter D.

Furthermore, the cluster fan blade is provided with a plurality of diameters D, the diameter D ranges from 20mm to 1.5m, and the fan blade solidity value ranges from 0.05 to 0.95.

The utility model also provides an axial fan, a serial communication port, including foretell cluster fan blade structure that has the enhancement frame.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses a cluster fan blade structure with strengthen frame strengthens the frame through the design to link together through strengthening all first fan blades of frame setting on fixed framework, can increase the stability of first fan blade effectively, reduce the vibrations that produce when first fan blade rotates. The first fan blade and the second fan blade are arranged at intervals, so that the first fan blade and the second fan blade can achieve high coordination when rotating, the stability of the fan blades during rotation is guaranteed, the stability of air supply is guaranteed, and the air supply quantity can be further improved. Meanwhile, the cluster blades are arranged on the fixed framework and the reinforcing frame, and the solidity of a plurality of blades can be obtained through the cluster blades, so that the cluster blades can be limited to the outermost periphery of a single blade to do effective work, and the wind blown out by the cluster blades is more uniform and has higher efficiency compared with the traditional single smooth blade.

Through the design of strengthening frame and second fan blade, can combine with first fan blade well, can solve the problem of air supply volume and stability simultaneously effectively, when realizing that the air supply volume is big, can also guarantee the stability of fan blade. And such fan blade structural design is simple, and the technology degree of difficulty is little, can be favorable to improving production efficiency, reduction in production cost simultaneously.

In addition, the clustering fan blade structure is also provided with a noise reduction structure, the noise reduction structure is arranged on the edge of one end, connected with the fixed framework, of the first fan blade, and/or the edge of one end, connected with the reinforcing frame, of the second fan blade, and the edge of the connection position is an area with the most unstable airflow field, so that the noise reduction structure is arranged in the areas, the airflow is combed, the generation of large vortex is avoided, and the noise is effectively reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Wherein:

fig. 1 is a schematic structural diagram of a cluster blade structure with a reinforcing frame according to the present invention;

fig. 2 is a schematic view of the noise reduction structure of the present invention;

fig. 3 is a schematic back structure diagram of the cluster blade structure with the reinforcing frame of the present invention;

FIG. 4 is a screenshot of A-A in FIG. 3;

fig. 5 is a schematic structural view of a single fan blade of the present invention;

fig. 6 is a schematic view of the shape of the noise reduction structure and the secondary noise reduction structure of the present invention;

fig. 7 is a schematic structural view of the junction of the present invention;

in the figure:

1-a fixed architecture; 11-reinforcing ribs; 2-a first fan blade; 3-a second fan blade; 4-a reinforcing frame; 5-noise reduction structure; 51-order noise reduction structure; 6-junction; 7-junction; b1 — trailing edge; b2-outer edge; b3 — leading edge; b4-inner edge; c-junction point; h-geometric center.

Detailed Description

In order that the above objects, features and advantages of the present application can be more clearly understood, a detailed description of the present application will be given below with reference to the accompanying drawings and detailed description. In addition, the embodiments and features of the embodiments of the present application may be combined with each other without conflict. In the following description, numerous specific details are set forth to provide a thorough understanding of the present application, and the described embodiments are merely a subset of the embodiments of the present application, rather than all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

As shown in fig. 1, the utility model provides a cluster fan blade structure with strengthen frame, including fixed framework 1, be provided with at least a set of cluster fan blade on the fixed framework 1, the cluster fan blade includes first fan blade 2 and second fan blade 3, and first fan blade 2 sets up on fixed framework 1, and second fan blade 3 passes through the connecting piece and connects the setting on first fan blade 2, and the connecting piece runs through first fan blade 2, and the connecting piece end to end forms and strengthens frame 4. Through the design of the reinforcing frame 4, and all the first fan blades 2 arranged on the fixed framework 1 are connected together through the reinforcing frame 4, the stability of the first fan blades 2 can be effectively increased, and the vibration generated when the first fan blades 2 rotate is reduced. The reinforcing frame 4 and the fixed framework 1 are arranged concentrically, so that the highest rotation coordination of the reinforcing frame 4 and the fixed structure can be ensured when the fan rotates, and the phenomenon that vibration is caused by uneven airflow generated between the reinforcing frame 4 and the fixed structure to influence the rotating stability of the fan blade structure is avoided.

The first fan blade 2 and the second fan blade 3 are arranged at intervals, so that the first fan blade 2 and the second fan blade 3 can achieve high coordination when rotating, the stability of the fan blades during rotation is guaranteed, the stability of air supply is guaranteed, and the air supply quantity can be further improved. The second fan blade 3 is arranged on the reinforcing frame 4, so that the material consumption of the second fan blade 3 can be reduced, the structural design is simple, the process difficulty is low, the improvement of the production efficiency can be facilitated, and the production cost is reduced. Because the blade root of the second fan blade 3 is not directly connected with the fixed framework 1, the capability of resisting airflow impact is slightly weaker than that of the first fan blade 2, and therefore, the distance between the outermost end of the outer edge of the first fan blade 2 and the reinforcing frame 4 is set to be larger than or equal to the distance between the outermost end of the outer edge of the second fan blade 3 and the reinforcing frame 4. Due to the design, the first fan blade 2 can resist the impact of more air flows relative to the second fan blade 3, the impact of the air flows on the second fan blade 3 is reduced, the stability of the second fan blade 3 is ensured, and the overall stability of the fan blade structure is improved.

A groove is formed in one side face of the fixed framework 1, a plurality of reinforcing ribs 11 are evenly arranged in the groove, and the reinforcing ribs 11 can further increase the stability of the clustering fan blade structure. The structure of the fixed framework 1 is arranged to be cylindrical or round table-shaped, the structure of the reinforcing frame 4 is arranged to be hollow cylindrical or hollow round table-shaped, the design of the cylindrical or round table is adopted, the impact on the surfaces of the fixed framework 1 and the reinforcing frame 4 can be reduced, and the noise is reduced. Moreover, the fixing frame 1 and the reinforcing frame 4 are arranged in a circular truncated cone shape, that is, the surfaces of the fixing frame 1 and the reinforcing frame 4 are arranged in an inclined manner, and the inclined angle is arranged according to the flow direction of the air flow, so that the smoothness of the air flow can be further ensured, and the noise is further reduced.

In the design of the fan blades, the angle of a straight line formed by connecting two end points of the intersecting line of the fan blades and the fixed framework 1 relative to the central axis of the fixed framework 1 is called an inner installation angle, the angle of a straight line formed by connecting two end points of the interface with the largest width of the fan blades relative to the central axis of the fixed framework 1 is called an outer installation angle, in the design of the cluster fan blade structure, the inner installation angle of the first fan blade 2 is set to be 15-75 degrees, the outer installation angle is set to be 10-70 degrees, and/or the inner installation angle of the second fan blade 3 is set to be 15-75 degrees, and the outer installation angle is set to be. By the design and matching of the first fan blade 2 and the second fan blade 3 at the same or different angles, parameters such as diffusion, distance, noise and the like of the first fan blade 2 and the second fan blade 3 can be optimized, and therefore the performance of the fan is optimized.

In this cluster fan blade design, the cluster fan blade has a plurality of fan blade real estate, and each blade in the cluster fan blade can not overlap in the appointed angle of the dead ahead of cluster fan blade structure blowing direction, and wherein, the fan blade real estate formula of calculation is:

(i and n are positive integers, i is more than or equal to 1, and n is more than i), wherein S is_DIs the blade real number value L of the cluster blades under the diameter D_iIs the chord length of the blade i,

is the sum of the chord lengths of the blades of each blade at the same diameter D, and n is the number of blades present at the same diameter D. In some specific embodiments, the diameter D may range from 20mm to 1.5m, and the fan blade solidity value may range from 0.05 to 0.95.

In this embodiment, the cluster blade structure has a plurality of blade solidity values, which means that each blade with different diameters can perform effective work on the outermost periphery of the diameter, but is not limited to the outermost periphery of a single blade with one diameter, so that the wind blown out by the cluster blade structure is more uniform and has higher efficiency than the conventional blades.

As shown in fig. 2-4, the clustering fan blade structure is further provided with a noise reduction structure, the noise reduction structure 5 is arranged at an edge of a connection end of the first fan blade 2 and the fixed structure 1, an edge of a connection end of the first fan blade 2 and the reinforcing frame 4, and an edge of a connection end of the second fan blade 3 and the reinforcing frame 4, and the connection positions are connection positions 7 shown in fig. 3. According to research, the above-mentioned joints 7 are the most unstable areas of the airflow field during the operation of the fan blade, because the airflow has significant interaction with the geometric surface or edge of the fan blade, and forms unstable boundary layers, especially the joints 7 farther away from the air inlet surface or the areas with unsmooth transition. The unstable boundary layer strengthens the development of small-scale turbulence, and the energy of the flow field is dissipated and converted into noise energy through a small-scale turbulence mechanism.

In addition, during the operation of the fan blade, the airflow field at each junction 6 on the fan blade is also an extremely unstable region, as shown in fig. 5, the transition section of each adjacent edge on the fan blade is the junction 6, and these edges include a leading edge B3, a trailing edge B1, an outer edge B2, and an inner edge B4. Therefore, each junction 6 of the first fan blade 2 and the second fan blade 3 can also be provided with a noise reduction structure 5, so that the noise can be further reduced. In this embodiment, all junctions 7 and juncture 6 of this cluster fan blade structure can all be provided with and fall the structure 5 of making an uproar, moreover, also can be provided with on the upper and lower edge of fixed framework 1 and reinforcing frame 4 and fall the structure 5 of making an uproar, can also realize combing the air current of flowing through fixed structure and reinforcing frame 4 upper and lower edge to further realize effectively falling the effect of making an uproar.

As shown in fig. 6, the noise reduction structure 5 is configured as a zigzag structure and/or a wave-shaped structure, and may also be a V-shaped, W-shaped, semicircular, multi-circular structure similar to the zigzag and wave-shaped structure. The shape structure can cut and comb large eddy generated when air flows out of the connecting part 7 to form small eddy, so that the smooth air flow transition of the connecting part 7 is ensured, the energy of a flow field is reduced and dissipated to be converted into noise energy, and the noise caused by high-speed rotation of the fan blades is reduced. And can also be provided with the structure 51 of making an uproar on making an uproar structure 5, make an uproar structure 51 of making an uproar is made an uproar to inferior, make an uproar structure 51 sets up on the edge of making an uproar structure 5 of making an uproar, can further cut and comb the air current vortex, further noise reduction.

In this embodiment, the noise reduction structure is formed by combining any two different shape structures, for example, at the junction between the front edge B3 of the fan blade and the outer edge B2, a sawtooth-shaped noise reduction structure is adopted at the side close to the front edge B3, and a wavy noise reduction structure is adopted at the side close to the outer edge B2, and the two different shape structures can supplement each other, so that the phenomenon that the airflow generated after cutting and combing by a single-shape structure is gathered again to form a new vortex is avoided, the formation of the vortex can be further reduced, and the effect of further reducing noise is realized.

As shown in fig. 7, in particular, a boundary point C is disposed on the boundary 6, the boundary point C is used as a dividing point of the boundary 6, and two different noise reduction structures 5 are disposed on the two boundary points; as a preferred arrangement, the intersection point C is the point on the intersection 6 furthest away from the geometric centre H of the blade body. In order to achieve a better noise reduction effect, different noise reduction structures 5 are arranged on two sides of the intersection point C, and the design of the noise reduction structures 5 is based on the intersection point starting layout. Assuming that B1 is the trailing edge of the first fan blade 2, B2 is the outer edge of the first fan blade 2, and point C is the intersection point, the structural form of the noise reduction structure 5 disposed on the edge CO1 on one side of the intersection point C may be a wave-shaped structure, and the structural form of the noise reduction structure 5 disposed on the edge CO2 on the other side of the intersection point C may be a zigzag structure.

Correspondingly, the embodiment of the utility model provides a still provide an axial fan, cluster fan blade including any one of the above-mentioned embodiments.

In this embodiment, thanks to the improvement of the above-mentioned cluster fan blade, this axial fan has the advantage that the air output is big and the noise is low.

While the preferred embodiments of the present invention have been described in detail, it should be understood that modifications and variations can be made by persons skilled in the art without inventive faculty, and in light of the above teachings. Therefore, the technical solutions according to the present invention, which can be obtained by logical analysis, reasoning or limited experiments based on the prior art, should be within the scope of protection defined by the claims.

Claims (10)

1. The utility model provides a cluster fan blade structure with strengthen frame which characterized in that includes:

the fan comprises a fixed framework, at least one group of cluster fan blades are arranged on the fixed framework, the cluster fan blades comprise first fan blades and second fan blades, the first fan blades and the second fan blades are distributed at intervals, the first fan blades are arranged on the fixed framework, the second fan blades are connected and arranged on the first fan blades through connecting pieces, the connecting pieces penetrate through the first fan blades, and the connecting pieces are connected end to form a reinforcing frame;

and the noise reduction structure is arranged on the edge of one end, connected with the fixed framework, of the first fan blade, and/or the edge of one end, connected with the reinforcing frame, of the second fan blade.

2. The clustering fan blade structure with the reinforcing frame according to claim 1, wherein the noise reduction structure is arranged at a junction between a leading edge and an outer edge of the first fan blade and/or a junction between a trailing edge and an outer edge of the first fan blade.

3. The clustering fan blade structure with the reinforcing frame according to claim 1, wherein the noise reduction structure is arranged at the junction between the front edge and the outer edge of the second fan blade and/or at the junction between the rear edge and the outer edge of the second fan blade.

4. The clustering fan blade structure with the reinforcing frame according to claim 1, wherein the noise reduction structure is arranged on the upper and lower edges of the fixed framework and/or the upper and lower edges of the reinforcing frame.

5. The clustering fan blade structure with the reinforcing frame according to any one of claims 2 to 4, wherein the noise reduction structure is any one or a combination of any multiple structures of a sawtooth structure, a wave structure, a V-shaped structure, a W-shaped structure and a semicircular structure.

6. The clustering fan blade structure with the reinforcing frame according to claim 1, wherein the inner installation angle of the first fan blade is set to be 15 ° -75 °, the outer installation angle is set to be 10 ° -70 °, and/or the inner installation angle of the second fan blade is set to be 15 ° -75 °, and the outer installation angle is set to be 10 ° -70 °.

7. The clustering fan blade structure with the reinforcing frame according to claim 1, wherein the fixing frame is configured to be cylindrical or circular truncated cone-shaped, and the reinforcing frame is configured to be hollow cylindrical or hollow circular truncated cone-shaped.

8. The fan blade clustering structure with the reinforcing frame according to claim 1, wherein the fan blade clustering structure has a plurality of fan blade real-estate values, and each of the fan blades in the fan blade clustering structure can not be overlapped or overlapped within a specified angle right in front of the blowing direction of the fan blade clustering structure, wherein the fan blade real-estate value calculation formula is as follows:

(i and n are positive integers, i is more than or equal to 1, and n is more than i), wherein S is_DThe blade real number value L of the clustered blades under the diameter D_iIs the chord length of the blade i,

is the sum of the chord lengths of the blades of each blade under the same diameter D, and n is the blade existing under the same diameter DNumber of sheets.

9. The fan blade clustering structure with the reinforcing frame according to claim 8, wherein the fan blade clustering structure is provided with a plurality of diameters D, the diameter D ranges from 20mm to 1.5m, and the fan blade solidity value ranges from 0.05 to 0.95.

10. An axial flow fan, characterized in that, comprises the blade clustering structure with the reinforcing frame of any one of claims 1 to 9.

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